public RobotAction Tick(int robotId, RoundConfig config, GameState state)
{
RobotState self = state.robots[robotId];
RobotAction action = new RobotAction();
action.targetId = -1;
position mine = new position();
position charging_station = new position();
position service_station = new position();
charging_station = getNearestChargingStation(state, self);
service_station = getNearestServiceStation(state, self);
mine.x = self.X;
mine.y = self.Y;
HealthExchange(self, config, action, 0.0f, 0.4f, 0.6f);
if (mine.x == charging_station.x &&
mine.y == charging_station.y &&
(self.attack + self.defence + self.speed) < 0.95 * config.max_health)
{
return(action);
}
if (mine.x == service_station.x &&
mine.y == service_station.y &&
self.energy < 0.99 * config.max_energy)
{
return(action);
}
//или пополняем энергию
//MoveTo(charging_station, self, config, action);
if (self.energy <= 0.8 * config.max_energy)
{
HealthExchange(self, config, action, 0.0f, 0.2f, 0.8f);
MoveTo(getNearestServiceStation(state, self), self, config, action);
return(action);
}
else
{
//или пополняем техн. состояние
int service_sost = self.attack + self.defence + self.speed;
if (service_sost <= 0.9 * config.max_health)
{
MoveTo(getNearestChargingStation(state, self), self, config, action);
//записываем информацию о движении
return(action);
}
else
{
int attack_range = (int)(config.max_radius) * 10 * self.speed * self.energy /
(config.max_energy * config.max_health);
HealthExchange(self, config, action, 0.4f, 0.4f, 0.2f);
//или ищем цель для удара и защиты
int enemy_id = -1;
bool under_attack = false;
for (int id = 0; id < state.robots.Count; id++)
{
RobotState rs = state.robots[id];
if (rs.name != self.name)
{
int enemy_distance_attack = 10 * config.max_radius * rs.speed * rs.energy / config.max_health / config.max_energy;
int distance = getDistance(self.X, self.Y, rs.X, rs.Y);
if (distance <= enemy_distance_attack && distance <= attack_range)
{
under_attack = true;
enemy_id = id;
}
}
}
int target_id = GetNearestTarget(robotId, config, state, true, true);
HealthExchange(self, config, action, 0.4f, 0.4f, 0.2f);
if (target_id >= 0)
{
RobotState target = state.robots[target_id];
position target_pos = new position();
target_pos.x = target.X;
target_pos.y = target.Y;
MoveTo(target_pos, self, config, action);
position distance = new position();
distance.x = self.X + action.dX;
distance.y = self.Y + action.dY;
int dist = getDistance(self.X + action.dX, self.Y + action.dY, target_pos.x, target_pos.y);
if (dist <= attack_range)
{
action.targetId = target_id;
}
}
}
}
return(action);
}
private async void Round_StatusChangedAsync(object sender, CoordinatorRoundStatus status)
{
try
{
var round = sender as CoordinatorRound;
Money feePerInputs = null;
Money feePerOutputs = null;
// If success save the coinjoin.
if (status == CoordinatorRoundStatus.Succeded)
{
uint256[] mempoolHashes = null;
try
{
mempoolHashes = await RpcClient.GetRawMempoolAsync().ConfigureAwait(false);
}
catch (Exception ex)
{
Logger.LogError(ex);
}
using (await CoinJoinsLock.LockAsync().ConfigureAwait(false))
{
if (mempoolHashes is { })
{
var fallOuts = UnconfirmedCoinJoins.Where(x => !mempoolHashes.Contains(x));
CoinJoins.RemoveAll(x => fallOuts.Contains(x));
UnconfirmedCoinJoins.RemoveAll(x => fallOuts.Contains(x));
}
uint256 coinJoinHash = round.CoinJoin.GetHash();
CoinJoins.Add(coinJoinHash);
UnconfirmedCoinJoins.Add(coinJoinHash);
LastSuccessfulCoinJoinTime = DateTimeOffset.UtcNow;
await File.AppendAllLinesAsync(CoinJoinsFilePath, new[] { coinJoinHash.ToString() }).ConfigureAwait(false);
// When a round succeeded, adjust the denomination as to users still be able to register with the latest round's active output amount.
IEnumerable <(Money value, int count)> outputs = round.CoinJoin.GetIndistinguishableOutputs(includeSingle: true);
var bestOutput = outputs.OrderByDescending(x => x.count).FirstOrDefault();
if (bestOutput != default)
{
Money activeOutputAmount = bestOutput.value;
int currentConfirmationTarget = await AdjustConfirmationTargetAsync(lockCoinJoins : false).ConfigureAwait(false);
var fees = await CoordinatorRound.CalculateFeesAsync(RpcClient, currentConfirmationTarget).ConfigureAwait(false);
feePerInputs = fees.feePerInputs;
feePerOutputs = fees.feePerOutputs;
Money newDenominationToGetInWithactiveOutputs = activeOutputAmount - (feePerInputs + (2 * feePerOutputs));
if (newDenominationToGetInWithactiveOutputs < RoundConfig.Denomination)
{
if (newDenominationToGetInWithactiveOutputs > Money.Coins(0.01m))
{
RoundConfig.Denomination = newDenominationToGetInWithactiveOutputs;
RoundConfig.ToFile();
}
}
}
}
private async void Round_StatusChangedAsync(object sender, CcjRoundStatus status)
{
try
{
var round = sender as CcjRound;
Money feePerInputs = null;
Money feePerOutputs = null;
// If success save the coinjoin.
if (status == CcjRoundStatus.Succeded)
{
using (await CoinJoinsLock.LockAsync())
{
uint256 coinJoinHash = round.SignedCoinJoin.GetHash();
CoinJoins.Add(coinJoinHash);
await File.AppendAllLinesAsync(CoinJoinsFilePath, new[] { coinJoinHash.ToString() });
// When a round succeeded, adjust the denomination as to users still be able to register with the latest round's active output amount.
IEnumerable <(Money value, int count)> outputs = round.SignedCoinJoin.GetIndistinguishableOutputs(includeSingle: true);
var bestOutput = outputs.OrderByDescending(x => x.count).FirstOrDefault();
if (bestOutput != default)
{
Money activeOutputAmount = bestOutput.value;
int currentConfirmationTarget = await AdjustConfirmationTargetAsync(lockCoinJoins : false);
var fees = await CcjRound.CalculateFeesAsync(RpcClient, currentConfirmationTarget);
feePerInputs = fees.feePerInputs;
feePerOutputs = fees.feePerOutputs;
Money newDenominationToGetInWithactiveOutputs = activeOutputAmount - (feePerInputs + (2 * feePerOutputs));
if (newDenominationToGetInWithactiveOutputs < RoundConfig.Denomination)
{
if (newDenominationToGetInWithactiveOutputs > Money.Coins(0.01m))
{
RoundConfig.Denomination = newDenominationToGetInWithactiveOutputs;
await RoundConfig.ToFileAsync();
}
}
}
}
}
// If aborted in signing phase, then ban Alices that did not sign.
if (status == CcjRoundStatus.Aborted && round.Phase == CcjRoundPhase.Signing)
{
IEnumerable <Alice> alicesDidntSign = round.GetAlicesByNot(AliceState.SignedCoinJoin, syncLock: false);
CcjRound nextRound = GetCurrentInputRegisterableRoundOrDefault(syncLock: false);
if (nextRound != null)
{
int nextRoundAlicesCount = nextRound.CountAlices(syncLock: false);
var alicesSignedCount = round.AnonymitySet - alicesDidntSign.Count();
// New round's anonset should be the number of alices that signed in this round.
// Except if the number of alices in the next round is already larger.
var newAnonymitySet = Math.Max(alicesSignedCount, nextRoundAlicesCount);
// But it cannot be larger than the current anonset of that round.
newAnonymitySet = Math.Min(newAnonymitySet, nextRound.AnonymitySet);
// Only change the anonymity set of the next round if new anonset does not equal and newanonset is larger than 1.
if (nextRound.AnonymitySet != newAnonymitySet && newAnonymitySet > 1)
{
nextRound.UpdateAnonymitySet(newAnonymitySet, syncLock: false);
if (nextRoundAlicesCount >= nextRound.AnonymitySet)
{
// Progress to the next phase, which will be OutputRegistration
await nextRound.ExecuteNextPhaseAsync(CcjRoundPhase.ConnectionConfirmation);
}
}
}
foreach (Alice alice in alicesDidntSign) // Because the event sometimes is raised from inside the lock.
{
// If it is from any coinjoin, then do not ban.
IEnumerable <OutPoint> utxosToBan = alice.Inputs.Select(x => x.Outpoint);
await UtxoReferee.BanUtxosAsync(1, DateTimeOffset.UtcNow, forceNoted : false, round.RoundId, utxosToBan.ToArray());
}
}
// If finished start a new round.
if (status == CcjRoundStatus.Aborted || status == CcjRoundStatus.Succeded)
{
round.StatusChanged -= Round_StatusChangedAsync;
round.CoinJoinBroadcasted -= Round_CoinJoinBroadcasted;
await MakeSureTwoRunningRoundsAsync(feePerInputs, feePerOutputs);
}
}
catch (Exception ex)
{
Logger.LogWarning(ex);
}
}
public RobotAction Tick(int robotId, RoundConfig config, GameState state)
{
RobotState selfRobot = state.robots[robotId];
RobotAction action = new RobotAction();
if (!selfRobot.isAlive)
{
return(action);
}
List <string> friendRobots = new List <string>()
{
"Ryzhov", "Haritonov", "Nikandrov", "Sinyavsky", "Frolov", "Orlov", "Kamshilov"
};
decimal MIN_ENERGY_TO_GO_RELOAD = 0.85m;
decimal MIN_HEALTH_TO_GO_RELOAD = 0.85m;
decimal MAX_ATTACK_DISTANCE_RATIO = 30m;
List <Point> healthPoints = state.points.Where(p => p.type == PointType.Health).ToList();
List <Point> energyPoints = state.points.Where(p => p.type == PointType.Energy).ToList();
bool hasNearestHealth = true;
bool hasNearestEnergy = true;
Point nearestHealth = null;
decimal minDistH = 10000000m;
int indexH = -1;
for (int i = 0; i < healthPoints.Count; i++)
{
Point p = healthPoints[i];
decimal dist = GetDistance(p.X, p.Y, selfRobot.X, selfRobot.Y);
if (dist < minDistH)
{
minDistH = dist;
indexH = i;
}
}
if (indexH >= 0)
{
nearestHealth = healthPoints[indexH];
}
else
{
hasNearestHealth = false;
}
Point nearestEnergy = null;
decimal minDistE = 10000000m;
int indexE = -1;
for (int i = 0; i < energyPoints.Count; i++)
{
Point p = energyPoints[i];
decimal dist = GetDistance(p.X, p.Y, selfRobot.X, selfRobot.Y);
if (dist < minDistE)
{
minDistE = dist;
indexE = i;
}
}
if (indexE >= 0)
{
nearestEnergy = energyPoints[indexE];
}
else
{
hasNearestEnergy = false;
}
decimal energyRest = selfRobot.energy / (decimal)config.max_energy;
decimal healthRest = (selfRobot.speed + selfRobot.defence + selfRobot.attack) / (decimal)config.max_health;
decimal step = GetMaxCurrentStep(selfRobot, config);
decimal attackRadius = GetMaxCurrentAttackRadius(selfRobot, config);
decimal attackPower = GetMaxCurrentAttackPower(selfRobot, config);
if ((energyRest <= MIN_ENERGY_TO_GO_RELOAD && hasNearestEnergy) || (healthRest <= MIN_HEALTH_TO_GO_RELOAD && hasNearestHealth) || !done)
{
int dx = 0;
int dy = 0;
done = false;
if (energyRest >= 0.99m || healthRest >= 0.99m)
{
done = true;
}
if (healthRest <= MIN_HEALTH_TO_GO_RELOAD && nearestHealth != null)
{
Coord deltaCoord = GetCoordXYStepToPoint(nearestHealth, selfRobot, step);
if (Math.Abs(selfRobot.Y - nearestHealth.Y) <= 1)
{
deltaCoord.Y = (selfRobot.Y - nearestHealth.Y) * -1;
}
if (Math.Abs(selfRobot.X - nearestHealth.X) <= 1)
{
deltaCoord.X = (selfRobot.X - nearestHealth.X) * -1;
}
bool checkStep = CheckStepFieldBorders(selfRobot, config, deltaCoord);
if (checkStep)
{
action.dX = deltaCoord.X;
action.dY = deltaCoord.Y;
action.targetId = state.robots[robotId > 0 ? 0 : 1].id;
}
}
else if (energyRest <= MIN_ENERGY_TO_GO_RELOAD && nearestEnergy != null)
{
Coord deltaCoord = GetCoordXYStepToPoint(nearestEnergy, selfRobot, step);
if (Math.Abs(selfRobot.Y - nearestEnergy.Y) <= 1)
{
deltaCoord.Y = (selfRobot.Y - nearestEnergy.Y) * -1;
}
if (Math.Abs(selfRobot.X - nearestEnergy.X) <= 1)
{
deltaCoord.X = (selfRobot.X - nearestEnergy.X) * -1;
}
bool checkStep = CheckStepFieldBorders(selfRobot, config, deltaCoord);
if (checkStep)
{
action.dX = deltaCoord.X;
action.dY = deltaCoord.Y;
action.targetId = state.robots[robotId > 0 ? 0 : 1].id;
}
}
}
else
{
decimal distToNearestAlienRobot = 10000000;
List <RobotState> nearRobots = new List <RobotState>();
foreach (RobotState item in state.robots)
{
if (selfRobot.id != item.id && !friendRobots.Contains(item.name))
{
decimal dist = GetDistance(item.X, item.Y, selfRobot.X, selfRobot.Y);
if (dist <= attackRadius * MAX_ATTACK_DISTANCE_RATIO)
{
nearRobots.Add(item);
}
}
}
nearRobots = nearRobots.Where(r => r.isAlive == true).OrderBy(r => r.defence).ToList();
bool foundAlienToAtack = false;
int prevA = selfRobot.attack;
int prevD = selfRobot.defence;
foundAlienToAtack = CountAction(config, selfRobot, action, step, attackRadius, attackPower, nearRobots);
if (!foundAlienToAtack)
{
RobotState ar = GetNearestAlienRobotId(state, selfRobot, friendRobots);
Coord deltaCoord = GetCoordXYStepToPoint(new Point()
{
X = ar.X, Y = ar.Y
}, selfRobot, step);
bool checkStep = CheckStepFieldBorders(selfRobot, config, deltaCoord);
if (checkStep)
{
action.dX = deltaCoord.X;
action.dY = deltaCoord.Y;
action.targetId = ar.id;
}
else
{
action.dX = 0;
}
}
}
battlestep++;
return(action);
}
public RobotAction Tick(int robotId, RoundConfig config, GameState state)
{
int MinDistance = 999999;
coords NextCoords = new coords();
RobotState self = state.robots[robotId];
RobotAction action = new RobotAction();
action.targetId = -1;
foreach (Point P in state.points)
{
int a = TakeDistance(self.X, self.Y, P.X, P.Y);
if (P.type == PointType.Energy && (a < MinDistance))
{
MinDistance = a;
NextCoords.x = P.X;
NextCoords.y = P.Y;
}
}
int enemy_id = -1;
coords destination = new coords();
destination = MoveTo(self, config, NextCoords);
coords destination2 = new coords();
destination2 = MoveTo(self, config, NextCoords);
action.dX = destination.x;
action.dY = destination.y;
int maxdefdistance = 10 * config.max_radius * self.speed / config.max_health * self.energy / config.max_energy;
bool attacked = false;
int enemy_id1 = -1;
for (int id = 0; id < state.robots.Count; id++)
{
RobotState rstates = state.robots[id];
if (rstates.name != self.name)
{
int enemy_distance_attack = 10 * config.max_radius * rstates.speed / config.max_health * rstates.energy / config.max_energy;
int distance = TakeDistance(self.X, self.Y, rstates.X, rstates.Y);
if (distance <= enemy_distance_attack && distance <= maxdefdistance)
{
attacked = true;
enemy_id = id;
action.targetId = enemy_id;
}
}
}
if ((self.attack + self.defence + self.speed) < 0.4 * config.max_health)
{
action.dX = destination2.x;
action.dY = destination2.y;
}
else if (self.energy < 0.4 * config.max_energy)
{
action.dX = destination.x;
action.dY = destination.y;
}
return(action);
}
private bool CountAction(RoundConfig config, RobotState selfRobot, RobotAction action, decimal step, decimal attackRadius, decimal attackPower, List <RobotState> nearRobots)
{
bool foundAlienToAtack = false;
foreach (RobotState nrb in nearRobots)
{
if (nrb.defence <= attackPower)
{
decimal dist = GetDistance(nrb.X, nrb.Y, selfRobot.X, selfRobot.Y);
decimal currentStep = 0;
if (dist > attackRadius)
{
decimal dtoa = dist - attackRadius;
if (step > dtoa)
{
currentStep = step - dtoa;
}
else
{
currentStep = step;
}
}
if (currentStep > 0)
{
Coord deltaCoord = GetCoordXYStepToPoint(new Point()
{
X = nrb.X, Y = nrb.Y
}, selfRobot, currentStep);
bool checkStep = CheckStepFieldBorders(selfRobot, config, deltaCoord);
decimal diff = step - currentStep;
if (diff > 0)
{
decimal energyPart = selfRobot.energy / (decimal)config.max_energy;
decimal healthPart = (config.max_radius * selfRobot.speed) / (decimal)config.max_health;
decimal necessaryV = (config.max_health * (attackRadius - diff)) / (decimal)(energyPart * config.max_radius);
}
if (checkStep)
{
action.dX = deltaCoord.X;
action.dY = deltaCoord.Y;
action.targetId = nrb.id;
foundAlienToAtack = true;
break;
}
else
{
action.dY = 0;
}
}
else
{
action.dX = 0;
action.dY = 0;
action.targetId = nrb.id;
foundAlienToAtack = true;
break;
}
}
}
return(foundAlienToAtack);
}
public RobotAction Tick(int robotId, RoundConfig config, GameState state)
{
RobotState self = state.robots[robotId];
RobotAction action = new RobotAction();
action.targetId = -1;
if (self.energy > 0 && self.isAlive)
{
int max_distance_attack = (int)Math.Round(10 * (float)config.max_radius * (float)self.speed / (float)config.max_health * (float)self.energy / (float)config.max_energy);
int health = self.attack + self.defence + self.speed;
int enemy_id = -1;
if (self.energy > 0.7 * config.max_energy && health > 0.7 * config.max_health)
{
for (int id = 0; id < state.robots.Count; id++)
{
RobotState rs = state.robots[id];
if (rs.name != self.name && rs.isAlive)
{
int enemy_distance_attack = (int)Math.Round(10 * (float)config.max_radius * (float)rs.speed / (float)config.max_health * (float)rs.energy / (float)config.max_energy);
int distance = CalcDistance(self.X, self.Y, rs.X, rs.Y);
if (distance <= enemy_distance_attack && distance <= max_distance_attack)
{
enemy_id = id;
}
}
}
}
if (enemy_id > 0)
{
HealthRedestribution(self, config, action, 0.4f, 0.4f, 0.2f);
action.targetId = enemy_id;
MoveTo(robotId, config, state, action, state.robots[enemy_id].X, state.robots[enemy_id].Y);
}
else
{
bool attack_mode = false;
HealthRedestribution(self, config, action, 0.0f, 0.4f, 0.6f);
if (self.energy < 0.95 * config.max_energy)
{
Point target = GetNearestStation(robotId, config, state, PointType.Energy);
MoveTo(robotId, config, state, action, target.X, target.Y);
}
else
{
if (health < 0.8 * config.max_health)
{
Point target_station = GetNearestStation(robotId, config, state, PointType.Health);
int X = target_station.X;
int Y = target_station.Y;
int target_robot_id = -1;
if (health > 0.4 * config.max_health)
{
int target_robot_dist = config.width * config.height;
for (int id = 0; id < state.robots.Count; id++)
{
RobotState rs = state.robots[id];
if (rs.isAlive == false && (rs.attack + rs.defence + rs.speed) > 0.4 * config.max_health)
{
int distance = CalcDistance(self.X, self.Y, rs.X, rs.Y);
if (distance < target_robot_dist)
{
target_robot_id = id;
target_robot_dist = distance;
}
}
}
}
if (target_robot_id >= 0)
{
RobotState taregt_robot = state.robots[target_robot_id];
if (CalcDistance(self.X, self.Y, X, Y) > CalcDistance(self.X, self.Y, taregt_robot.X, taregt_robot.Y))
{
X = taregt_robot.X;
Y = taregt_robot.Y;
}
}
MoveTo(robotId, config, state, action, X, Y);
}
else
{
int targetId = GetNearestRobot(robotId, config, state);
if (targetId >= 0)
{
attack_mode = true;
RobotState target = state.robots[targetId];
MoveTo(robotId, config, state, action, target.X, target.Y);
int distance = CalcDistance(self.X + action.dX, self.Y + action.dY, target.X, target.Y);
if (distance <= max_distance_attack)
{
action.targetId = targetId;
}
}
}
}
if (!attack_mode)
{
int target_id = -1;
for (int id = 0; id < state.robots.Count; id++)
{
RobotState rs = state.robots[id];
if (rs.name != self.name)
{
int distance = CalcDistance(self.X + action.dX, self.Y + action.dY, rs.X, rs.Y);
if (distance <= max_distance_attack)
{
target_id = id;
}
}
}
if (target_id >= 0)
{
action.targetId = target_id;
}
}
}
}
return(action);
}
public coordinates MoveTo(RoundConfig rc, RobotState self, coordinates coords)
{
int max_distance = 10 * rc.max_speed * self.speed / rc.max_health * self.energy / rc.max_energy;
coordinates coordsRes = new coordinates();
coordinates coordsTry = new coordinates();
int dX = coords.x - self.X;
int dY = coords.y - self.Y;
coordinates coordsSign = new coordinates();
coordsSign.x = sign(dX);
coordsSign.y = sign(dY);
coordsRes.x = 0;
coordsRes.y = 0;
if (Distance(self.X, self.Y, coords.x, coords.y) <= max_distance)
{
coordsRes.x = dX;
coordsRes.y = dY;
}
else
{
coordsTry.x = 0;
coordsTry.y = 0;
bool ch = false;
while (Pifagor(coordsTry.x, coordsTry.y) <= max_distance)
{
if (ch)
{
coordsTry.x += coordsSign.x;
if (Pifagor(coordsTry.x, coordsTry.y) > max_distance)
{
break;
}
else
{
coordsRes.x += coordsSign.x;
}
}
else
{
coordsTry.y += coordsSign.y;
if (Pifagor(coordsTry.x, coordsTry.y) > max_distance)
{
break;
}
else
{
coordsRes.y += coordsSign.y;
}
}
ch = !ch;
}
}
return(coordsRes);
}
public RobotAction Tick(int robotId, RoundConfig config, GameState state)
{
RobotState self = state.robots[robotId];
RobotAction action = new RobotAction();
action.targetId = -1;
if (self.energy > 0 && self.isAlive)
{
// find nearest energy station
int pointId = 0;
int pointDist = config.height * config.width;
for (int ptId = 0; ptId < state.points.Count; ptId++)
{
Point pt = state.points[ptId];
if (pt.type == PointType.Energy)
{
int ptDist = CalcDistance(self.X, self.Y, pt.X, pt.Y);
if (ptDist < pointDist)
{
pointDist = ptDist;
pointId = ptId;
}
}
}
Point targetPoint = state.points[pointId];
int maxDistance = 10 * config.max_speed * self.speed / config.max_health * self.energy / config.max_energy;
if (maxDistance > 0)
{
if (pointDist <= maxDistance)
{
action.dX = targetPoint.X - self.X;
action.dY = targetPoint.Y - self.Y;
}
else
{
int steps = pointDist / maxDistance + 1;
action.dX = (targetPoint.X - self.X) / steps;
action.dY = (targetPoint.Y - self.Y) / steps;
}
}
// defense
int targetId = -1;
int targetDist = config.width * config.height;
for (int rsId = 0; rsId < state.robots.Count; rsId++)
{
RobotState rs = state.robots[rsId];
int rsDist = CalcDistance(self.X, self.Y, rs.X, rs.Y);
if (rs.name != self.name && rs.energy > 0 && rsDist < targetDist)
{
targetDist = rsDist;
targetId = rsId;
}
}
int maxDistanceAttack = 10 * config.max_radius * self.speed / config.max_health * self.energy / config.max_energy;
if (targetDist <= maxDistanceAttack)
{
action.targetId = targetId;
}
}
return(action);
}
public void UpdateRoundConfig(CcjRoundConfig roundConfig)
{
RoundConfig.UpdateOrDefault(roundConfig);
}
