private Moves CalculateAttackNeutralMoves(BotTerritory neutralTerritory, int maxDeployment)
{
Moves outvar = null;
var neededAttackArmies = neutralTerritory.getNeededBreakArmies(neutralTerritory.Armies.DefensePower);
var ownedNeighbors = neutralTerritory.GetOwnedNeighbors();
var bestNeighbor = ownedNeighbors[0];
foreach (var ownedNeighbor in ownedNeighbors)
{
if (ownedNeighbor.GetIdleArmies().AttackPower > bestNeighbor.GetIdleArmies().ArmiesOrZero)
{
bestNeighbor = ownedNeighbor;
}
}
var neededDeployment = Math.Max(0, neededAttackArmies - bestNeighbor.GetIdleArmies().ArmiesOrZero);
if (neededDeployment <= maxDeployment)
{
outvar = new Moves();
if (neededDeployment > 0)
{
outvar.AddOrder(new BotOrderDeploy(BotState.Me.ID, bestNeighbor, neededDeployment));
}
var atm = new BotOrderAttackTransfer(BotState.Me.ID, bestNeighbor, neutralTerritory, new Armies(neededAttackArmies), "PreventOpponentExpandBonusTask");
// TODO bad?
if (bestNeighbor.GetOpponentNeighbors().Count == 0)
{
atm.Message = AttackMessage.Snipe;
}
outvar.AddOrder(atm);
}
return(outvar);
}
public static Moves CalculateBreakTerritoryTask(BotMain state, BotTerritory opponentTerritory, int maxDeployment, BotTerritory.DeploymentType conservativeLevel)
{
var outvar = new Moves();
var opponentArmies = opponentTerritory.GetArmiesAfterDeploymentAndIncomingAttacks(conservativeLevel);
var neededAttackArmies = opponentTerritory.getNeededBreakArmies(opponentArmies.DefensePower);
var ownedNeighbors = opponentTerritory.GetOwnedNeighbors();
var presortedOwnedNeighbors = state.TerritoryValueCalculator.SortDefenseValue(ownedNeighbors);
var sortedOwnedNeighbors = BotMap.GetOrderedListOfTerritoriesByIdleArmies(presortedOwnedNeighbors);
var territoryToUse = sortedOwnedNeighbors[0];
var idleArmies = territoryToUse.GetIdleArmies();
var neededDeployment = Math.Max(0, neededAttackArmies - idleArmies.AttackPower);
if (neededDeployment > maxDeployment)
{
return(null);
}
if (neededDeployment > 0)
{
outvar.AddOrder(new BotOrderDeploy(state.Me.ID, territoryToUse, neededDeployment));
}
Armies attackArmies = new Armies(neededAttackArmies);
//var atm = new BotOrderAttackTransfer(state.Me.ID, territoryToUse, opponentTerritory, idleArmies.Add(new Armies(neededDeployment)), "OneHitBreakTerritoryTask");
var atm = new BotOrderAttackTransfer(state.Me.ID, territoryToUse, opponentTerritory, attackArmies, "OneHitBreakTerritoryTask");
outvar.AddOrder(atm);
return(outvar);
}
/// <summary>Calculates the necessary moves to take the specified territories to take.</summary>
/// <param name="maxDeployment">the maximum allowed deployment. If no deployment constraint then put -1.
/// </param>
/// <param name="territoriesToTake">the territories that should be taken this turn.</param>
/// <returns>the necessary moves to take the territories or null if no solution was found.
/// </returns>
public Moves CalculateTakeTerritoriesTask(int maxDeployment, List <BotTerritory> territoriesToTake, BotTerritory.DeploymentType conservativeLevel, string attackSource)
{
var outvar = new Moves();
if (maxDeployment == -1)
{
maxDeployment = int.MaxValue;
}
var stillAvailableDeployment = maxDeployment;
foreach (var missingTerritory in territoriesToTake)
{
var bestNeighborTerritory = GetBestNeighborTerritory(missingTerritory, outvar, territoriesToTake);
var missingTerritoryArmies = missingTerritory.GetArmiesAfterDeploymentAndIncomingAttacks(conservativeLevel);
var neededAttackArmies = missingTerritory.getNeededBreakArmies(missingTerritory.Armies.DefensePower);
//var neededAttackArmies = (int)Math.Round(missingTerritoryArmies.DefensePower / BotState.Settings.OffensiveKillRate);
var missingArmies = GetMissingArmies(bestNeighborTerritory, missingTerritory, outvar, conservativeLevel);
if (missingArmies > stillAvailableDeployment)
{
return(null);
}
if (missingArmies > 0)
{
var pam = new BotOrderDeploy(BotState.Me.ID, bestNeighborTerritory, missingArmies);
outvar.AddOrder(pam);
stillAvailableDeployment -= missingArmies;
}
outvar.AddOrder(new BotOrderAttackTransfer(BotState.Me.ID, bestNeighborTerritory, missingTerritory, new Armies(neededAttackArmies), attackSource));
}
return(outvar);
}
public static void PlayCards(BotMain state, Moves moves)
{
if (state.Me.Team != PlayerInvite.NoTeam && state.Players.Values.Any(o => state.IsTeammate(o.ID) && !o.IsAIOrHumanTurnedIntoAI && o.State == GamePlayerState.Playing && !o.HasCommittedOrders))
{
return; //If there are any humans on our team that have yet to take their turn, do not play cards.
}
//For now, just play all reinforcement cards, and discard if we must use any others.
var teammatesOrders = state.TeammatesOrders.Values.Where(o => o.Orders != null).SelectMany(o => o.Orders);
var cardsPlayedByTeammate = teammatesOrders.OfType <GameOrderPlayCard>().Select(o => o.CardInstanceID).Concat(teammatesOrders.OfType <GameOrderDiscard>().Select(o => o.CardInstanceID)).ToHashSet(true);
int numMustPlay = state.CardsMustPlay;
foreach (var card in state.Cards)
{
if (cardsPlayedByTeammate.Contains(card.ID))
{
continue;
}
if (card is ReinforcementCardInstance)
{
moves.AddOrder(new BotOrderGeneric(GameOrderPlayCardReinforcement.Create(card.ID, state.Me.ID)));
state.MyIncome.FreeArmies += card.As <ReinforcementCardInstance>().Armies;
numMustPlay--;
}
else if (numMustPlay > 0) //For now, just discard all non-reinforcement cards if we must use the card
{
moves.AddOrder(new BotOrderGeneric(GameOrderDiscard.Create(state.Me.ID, card.ID)));
numMustPlay--;
}
}
}
private Moves CalculateDefendTerritoryMoves(BotTerritory territoryToDefend, int maxDeployment, bool useBackgroundArmies, int step, BotTerritory.DeploymentType lowerConservativeLevel, BotTerritory.DeploymentType upperConservativeLevel)
{
var outvar = new Moves();
var maxAttackingArmies = 0;
var currentDeployment = 0;
foreach (var opponentNeighbor in territoryToDefend.GetOpponentNeighbors())
{
currentDeployment += opponentNeighbor.GetTotalDeployment(lowerConservativeLevel);
var opponentArmies = opponentNeighbor.GetArmiesAfterDeployment(lowerConservativeLevel).AttackPower;
var upperOpponentArmies = opponentNeighbor.GetArmiesAfterDeployment(upperConservativeLevel).AttackPower;
var deploymentDifference = upperOpponentArmies - opponentArmies;
for (var i = 0; i < step; i++)
{
if (deploymentDifference > 0)
{
deploymentDifference--;
opponentArmies++;
currentDeployment++;
}
}
var idleArmies = opponentArmies - 1;
maxAttackingArmies += idleArmies;
}
// Adjust stuff so opponent can't deploy eyerything to every territory
var maxOpponentDeployment = territoryToDefend.GetOpponentNeighbors().Select(o => o.OwnerPlayerID).Distinct().Max(o => BotState.GetGuessedOpponentIncome(o, BotState.VisibleMap));
var deploymentDifference_1 = maxOpponentDeployment - currentDeployment;
maxAttackingArmies -= deploymentDifference_1;
var opponentKills = SharedUtility.Round(maxAttackingArmies * BotState.Settings.OffenseKillRate);
var ownArmies = territoryToDefend.GetArmiesAfterDeploymentAndIncomingMoves().DefensePower;
var missingArmies = Math.Max(0, opponentKills - ownArmies + 1);
// First try to pull in more armies
if (missingArmies > 0 && useBackgroundArmies)
{
var neighborsWithIdleArmies = GetNeighborsWithIdleArmies(territoryToDefend);
foreach (var neighbor in neighborsWithIdleArmies)
{
var armiesToTransfer = Math.Min(missingArmies, neighbor.GetIdleArmies().NumArmies);
if (armiesToTransfer > 0)
{
outvar.AddOrder(new BotOrderAttackTransfer(BotState.Me.ID, neighbor, territoryToDefend, new Armies(armiesToTransfer), "DefendTerritoryTask"));
missingArmies -= armiesToTransfer;
}
}
}
// Then try to deploy
if (missingArmies <= maxDeployment && missingArmies > 0)
{
outvar.AddOrder(new BotOrderDeploy(BotState.Me.ID, territoryToDefend, missingArmies));
}
else if (missingArmies > maxDeployment)
{
return(null);
}
return(outvar);
}
/// <param name="opponentTerritory"></param>
/// <param name="maxDeployment"></param>
/// <returns></returns>
public static Moves CalculateAttackTerritoryTask(BotMain state, BotTerritory opponentTerritory, int maxDeployment)
{
var outvar = new Moves();
var ownedNeighbors = opponentTerritory.GetOwnedNeighbors();
var presortedOwnedNeighbors = state.TerritoryValueCalculator.SortDefenseValue(ownedNeighbors
);
var sortedOwnedNeighbors = BotMap.GetOrderedListOfTerritoriesByIdleArmies(
presortedOwnedNeighbors);
// Calculate the attacks
for (var i = 0; i < sortedOwnedNeighbors.Count; i++)
{
var attackingTerritory = sortedOwnedNeighbors[i];
if (i == 0 && maxDeployment > 0)
{
var pam = new BotOrderDeploy(state.Me.ID, attackingTerritory, maxDeployment);
outvar.AddOrder(pam);
if (attackingTerritory.GetIdleArmies().AttackPower + maxDeployment > 1)
{
var atm = new BotOrderAttackTransfer(state.Me.ID, attackingTerritory, opponentTerritory, attackingTerritory.GetIdleArmies().Add(new Armies(maxDeployment)), "AttackTerritoriesTask1");
outvar.AddOrder(atm);
}
}
else
{
if (attackingTerritory.GetIdleArmies().AttackPower > 1)
{
var atm = new BotOrderAttackTransfer(state.Me.ID, attackingTerritory, opponentTerritory, attackingTerritory.GetIdleArmies(), "AttackTerritoriesTask2");
outvar.AddOrder(atm);
}
}
}
// Check if we are killing more or equal armies than the opponent
// double currentOpponentArmies = opponentTerritory.ArmiesAfterDeployment;
var currentOpponentArmies = opponentTerritory.GetArmiesAfterDeploymentAndIncomingAttacks(BotTerritory.DeploymentType.Normal).DefensePower;
double opponentKills = 0;
double ownKills = 0;
foreach (var atm_1 in outvar.Orders.OfType <BotOrderAttackTransfer>())
{
int ourKills = opponentTerritory.getOwnKills(atm_1.Armies.AttackPower, currentOpponentArmies);
//var ourKills = Math.Min(currentOpponentArmies, atm_1.Armies.AttackPower * state.Settings.OffensiveKillRate);
var opponentKillsAttack = Math.Min(atm_1.Armies.AttackPower, currentOpponentArmies * state.Settings.DefenseKillRate);
ownKills += ourKills;
opponentKills += opponentKillsAttack;
currentOpponentArmies = Math.Max(0, currentOpponentArmies - ourKills);
}
if (ownKills >= opponentKills && outvar.Orders.OfType <BotOrderAttackTransfer>().Any())
{
return(outvar);
}
else
{
return(null);
}
}
private Moves CalculateBreakTerritoryMoves(BotTerritory opponentTerritory, int maxDeployment, int opponentDeployment, string source)
{
var outvar = new Moves();
var opponentArmies = opponentTerritory.Armies.DefensePower;
opponentArmies += opponentDeployment;
var neededAttackArmies = opponentTerritory.getNeededBreakArmies(opponentArmies);
//var neededAttackArmies = SharedUtility.Round(opponentArmies / BotState.Settings.OffensiveKillRate);
var ownedNeighbors = opponentTerritory.GetOwnedNeighbors();
var presortedOwnedNeighbors = BotState.TerritoryValueCalculator.SortDefenseValue(ownedNeighbors);
var sortedOwnedNeighbors = BotMap.GetOrderedListOfTerritoriesByIdleArmies(
presortedOwnedNeighbors);
// First deploy and then pull in more territories if necessary.
// First deploy and then pull in more territories if necessary.
var attackedWithSoFar = 0;
for (var i = 0; i < sortedOwnedNeighbors.Count; i++)
{
if (i == 0)
{
var neededDeployment = Math.Max(0, neededAttackArmies - sortedOwnedNeighbors[0].GetIdleArmies().NumArmies);
var totalDeployment = Math.Min(neededDeployment, maxDeployment);
if (totalDeployment > 0)
{
var pam = new BotOrderDeploy(BotState.Me.ID, sortedOwnedNeighbors[0], totalDeployment);
outvar.AddOrder(pam);
}
var attackingArmies = Math.Min(neededAttackArmies, sortedOwnedNeighbors[0].GetIdleArmies().NumArmies + totalDeployment);
outvar.AddOrder(new BotOrderAttackTransfer(BotState.Me.ID, sortedOwnedNeighbors[0], opponentTerritory, new Armies(attackingArmies), source));
attackedWithSoFar += attackingArmies;
}
else
{
// i != 0
var stillNeededArmies = neededAttackArmies - attackedWithSoFar;
if (stillNeededArmies > 0 && sortedOwnedNeighbors[i].GetIdleArmies().NumArmies > 1)
{
var newAttackingArmies = Math.Min(stillNeededArmies, sortedOwnedNeighbors[i].GetIdleArmies().NumArmies);
outvar.AddOrder(new BotOrderAttackTransfer(BotState.Me.ID, sortedOwnedNeighbors[i], opponentTerritory, new Armies(newAttackingArmies), "BreakTerritoryTask2"));
attackedWithSoFar += newAttackingArmies;
}
}
}
if (attackedWithSoFar >= neededAttackArmies)
{
return(outvar);
}
else
{
return(null);
}
}
/// <summary>We only try to perform 1 attack to a high ranked territory where an attack is possible.
/// </summary>
/// <remarks>
/// We only try to perform 1 attack to a high ranked territory where an attack is possible. For multiple attacks this
/// function has to be called multiple times.
/// </remarks>
/// <param name="attackLowImportantTerritories"></param>
/// <param name="attackMediumImportantTerritories"></param>
/// <param name="attackHighImportantTerritories"></param>
/// <returns></returns>
public static Moves CalculateNoPlanTryoutAttackTask(BotMain state, bool attackLowImportantTerritories, bool attackMediumImportantTerritories, bool attackHighImportantTerritories)
{
var possibleAttackTerritories = GetPossibleTerritoriesToAttack(state, attackLowImportantTerritories, attackMediumImportantTerritories, attackHighImportantTerritories);
var sortedPossibleAttackTerritories = state.TerritoryValueCalculator.SortAttackValue
(possibleAttackTerritories);
foreach (var territoryToAttack in sortedPossibleAttackTerritories)
{
var neededNewArmies = 0;
var ownedNeighbors = territoryToAttack.GetOwnedNeighbors();
var sortedOwnedNeighbors = state.TerritoryValueCalculator.SortDefenseValue(ownedNeighbors);
BotTerritory bestNeighbor = null;
for (var i = sortedOwnedNeighbors.Count - 1; i >= 0; i--)
{
var smallAttackPresent = IsTerritoryAttackingOpponentTerritorySmall(ownedNeighbors[i], territoryToAttack);
if (smallAttackPresent)
{
neededNewArmies = territoryToAttack.Armies.DefensePower;
}
else
{
neededNewArmies = territoryToAttack.Armies.DefensePower + 1;
}
if (ownedNeighbors[i].GetIdleArmies().NumArmies >= neededNewArmies)
{
bestNeighbor = ownedNeighbors[i];
break;
}
}
if (bestNeighbor != null)
{
var outvar = new Moves();
if (bestNeighbor.GetIdleArmies().NumArmies > 2)
{
var atm = new BotOrderAttackTransfer(state.Me.ID, bestNeighbor, territoryToAttack, new Armies(3), "NoPlanTryoutAttackTask");
atm.Message = AttackMessage.TryoutAttack;
outvar.AddOrder(atm);
return(outvar);
}
else
{
var atm = new BotOrderAttackTransfer(state.Me.ID, bestNeighbor, territoryToAttack, new Armies(neededNewArmies), "NoPlanTryoutAttackTask");
atm.Message = AttackMessage.TryoutAttack;
outvar.AddOrder(atm);
return(outvar);
}
}
}
return(null);
}
/// <param name="maxMovesBeforeRiskyAttack">the maximum amount of moves that should happen before the first risky attack.
/// </param>
/// <returns></returns>
public static Moves CalculateDelayTask(BotMain state, Moves movesSoFar, int maxMovesBeforeRiskyAttack, int minMovesBeforeRiskyAttack)
{
var outvar = new Moves();
if (!IsRiskyAttackPresent(state, movesSoFar))
{
return(outvar);
}
var amountOfSafeMoves = CalculateAmountOfSafeMoves(state, movesSoFar);
// Step 1: Try to move armies next to neutral territories.
// Step 1: Try to move armies next to neutral territories.
var maximumNewDelays = Math.Max(0, maxMovesBeforeRiskyAttack - amountOfSafeMoves);
foreach (var territory in state.VisibleMap.GetNonOpponentBorderingBorderTerritories())
{
var ownedNeighbors = territory.GetOwnedNeighbors();
var sortedDistanceNeighbors = state.VisibleMap.SortTerritoriesDistanceToBorder
(ownedNeighbors);
var maxPossibleDelays = Math.Min(sortedDistanceNeighbors.Count, territory.GetIdleArmies().NumArmies);
var delaysToAdd = Math.Min(maximumNewDelays, maxPossibleDelays);
for (var i = 0; i < delaysToAdd; i++)
{
var territoryToTransferTo = sortedDistanceNeighbors[i];
var atm = new BotOrderAttackTransfer(state.Me.ID, territory, territoryToTransferTo, new Armies(1), "DelayTask");
outvar.AddOrder(atm);
maximumNewDelays--;
}
}
// Step 2: If the minMovesBeforeRiskyAttack constraint isn't fulfilled
// then also add delay moves next to the opponent
var stillNeededDelays = Math.Max(0, minMovesBeforeRiskyAttack - (amountOfSafeMoves
+ outvar.Orders.OfType <BotOrderAttackTransfer>().Count()));
foreach (var territory_1 in state.VisibleMap.GetOpponentBorderingTerritories())
{
var ownedNeighbors = territory_1.GetOwnedNeighbors();
var sortedDistanceNeighbors = state.VisibleMap.SortTerritoriesDistanceToBorder
(ownedNeighbors);
var maxPossibleDelays = Math.Min(sortedDistanceNeighbors.Count, territory_1.GetIdleArmies().NumArmies);
var delaysToAdd = Math.Min(stillNeededDelays, maxPossibleDelays);
for (var i = 0; i < delaysToAdd; i++)
{
var territoryToTransferTo = sortedDistanceNeighbors[i];
var atm = new BotOrderAttackTransfer(state.Me.ID, territory_1, territoryToTransferTo, new Armies(1), "DelayTask2");
outvar.AddOrder(atm);
stillNeededDelays--;
}
}
return(outvar);
}
public static Moves CalculatePreventTerritoriesTask(BotMain state, List <BotTerritory> territoriesToPrevent, PlayerIDType opponentID, int maxDeployment, BotTerritory.DeploymentType conservativeLevel)
{
var outvar = new Moves();
if (territoriesToPrevent.Count == 0)
{
return(outvar);
}
var opponentAttacks = CalculateGuessedOpponentTakeOverMoves(state, territoriesToPrevent, opponentID, true, conservativeLevel);
if (opponentAttacks == null)
{
return(outvar);
}
// Just try to prevent the territory with the highest defense territory value
var highestDefenceTerritoryValue = 0d;
BotTerritory highestDefenceValueTerritory = null;
foreach (var territory in territoriesToPrevent)
{
if (territory.OwnerPlayerID == state.Me.ID && territory.DefenceTerritoryValue >= highestDefenceTerritoryValue)
{
highestDefenceValueTerritory = territory;
highestDefenceTerritoryValue = territory.DefenceTerritoryValue;
}
}
var currentArmies = highestDefenceValueTerritory.GetArmiesAfterDeploymentAndIncomingMoves().DefensePower;
var attackingArmies = CalculateOpponentAttackingArmies(highestDefenceValueTerritory, opponentAttacks);
var minimumNeededArmies = SharedUtility.Round(attackingArmies.AttackPower * state.Settings.OffensiveKillRate);
//var minimumNeededArmies = SharedUtility.Round(attackingArmies.AttackPower * state.Settings.OffensiveKillRate);
var maximumNeededArmies = minimumNeededArmies;
var maximumMissingArmies = Math.Max(0, maximumNeededArmies - currentArmies);
var minimumMissingArmies = Math.Max(0, minimumNeededArmies - currentArmies);
if (maximumMissingArmies <= maxDeployment && maximumMissingArmies > 0)
{
outvar.AddOrder(new BotOrderDeploy(state.Me.ID, highestDefenceValueTerritory, maximumMissingArmies));
}
else if (minimumMissingArmies <= maxDeployment && maxDeployment > 0)
{
outvar.AddOrder(new BotOrderDeploy(state.Me.ID, highestDefenceValueTerritory, maxDeployment));
}
// If no solution then empty moves instead of null
return(outvar);
}
public static Moves CalculateMoveIdleArmiesTask(BotMain state)
{
var outvar = new Moves();
foreach (var ownedTerritory in state.VisibleMap.GetOwnedTerritories())
{
var outgoingMoves = ownedTerritory.OutgoingMoves;
BotOrderAttackTransfer mostImportantMove = null;
var currentHighestValue = -1;
foreach (var atm in outgoingMoves)
{
if (state.IsOpponent(atm.To.OwnerPlayerID) && atm.Armies.AttackPower > 1 && atm.Message != AttackMessage.TryoutAttack)
{
var attackValue = atm.To.AttackTerritoryValue;
if (attackValue > currentHighestValue)
{
currentHighestValue = attackValue;
mostImportantMove = atm;
}
}
}
var idleArmies = ownedTerritory.GetIdleArmies();
if (mostImportantMove != null && idleArmies.IsEmpty == false)
{
var atm_1 = new BotOrderAttackTransfer(state.Me.ID, ownedTerritory, mostImportantMove.To, ownedTerritory.GetIdleArmies(), "MoveIdleArmiesTask1");
outvar.AddOrder(atm_1);
}
}
return(outvar);
}
// TODO weitermachen
private void DeleteBadTransferMoves(Moves movesSoFar)
{
var interestingTransfers = new List <BotOrderAttackTransfer>();
foreach (var atm in movesSoFar.Orders.OfType <BotOrderAttackTransfer>())
{
if (atm.Armies.AttackPower > 1 && atm.To.OwnerPlayerID == BotState.Me.ID && atm.From.GetTotalDeployment(BotTerritory.DeploymentType.Normal) > 0)
{
interestingTransfers.Add(atm);
}
}
foreach (var atm_1 in interestingTransfers)
{
var deploymentToShift = Math.Min(atm_1.From.GetTotalDeployment(BotTerritory.DeploymentType.Normal), atm_1.Armies.AttackPower);
atm_1.Armies = atm_1.Armies.Subtract(new Armies(deploymentToShift));
var pam = new BotOrderDeploy(BotState.Me.ID, atm_1.To, deploymentToShift);
MovesCommitter.CommittPlaceArmiesMove(pam);
movesSoFar.AddOrder(pam);
foreach (var oldDeployment in atm_1.From.GetDeployment(BotTerritory.DeploymentType.Normal))
{
while (deploymentToShift > 0)
{
if (oldDeployment.Armies > 0)
{
deploymentToShift--;
oldDeployment.Armies = oldDeployment.Armies - 1;
}
else
{
break;
}
}
}
}
}
public static Moves CalculateTransferMoves2(BotMain state)
{
var outvar = new Moves();
foreach (var territory in state.VisibleMap.GetOwnedTerritories())
{
if (territory.GetIdleArmies().IsEmpty == false && territory.GetOpponentNeighbors().Count == 0)
{
var ownedNeighbors = GetOwnedNeighborsAfterExpansion(state, territory);
if (ownedNeighbors.Count > 0)
{
var bestNeighbor = territory;
foreach (var neighbor in ownedNeighbors)
{
bestNeighbor = GetCloserTerritory(bestNeighbor, neighbor);
}
if (bestNeighbor != territory)
{
var atm = new BotOrderAttackTransfer(state.Me.ID, territory, bestNeighbor, territory.GetIdleArmies(), "TransferMovesChooser2");
outvar.AddOrder(atm);
}
}
}
}
return(outvar);
}
public Moves CalculateOneStepExpandBonusTask(int maxDeployment, BotBonus bonus, bool acceptStackOnly, BotMap workingMap, BotTerritory.DeploymentType conservativeLevel)
{
var outvar = new Moves();
if (maxDeployment == -1)
{
maxDeployment = 1000;
}
var visibleNeutralTerritories = bonus.GetVisibleNeutralTerritories();
var territoriesToRemove = new List <BotTerritory>();
foreach (var territory in visibleNeutralTerritories)
{
if (workingMap.Territories[territory.ID].OwnerPlayerID == BotState.Me.ID)
{
territoriesToRemove.Add(territory);
}
}
visibleNeutralTerritories.RemoveAll(territoriesToRemove);
if (visibleNeutralTerritories.Count == 0)
{
return(null);
}
var sortedNeutralTerritories = BotState.TerritoryValueCalculator.SortExpansionValue(visibleNeutralTerritories);
var territoryToTake = new List <BotTerritory>();
territoryToTake.Add(sortedNeutralTerritories[0]);
var takeTerritoryMoves = CalculateTakeTerritoriesTask(-1, territoryToTake, conservativeLevel, "CalculateOneStepExpandBonusTask");
if (takeTerritoryMoves.GetTotalDeployment() > maxDeployment)
{
if (acceptStackOnly)
{
if (maxDeployment > 0)
{
var territoryToDeploy = takeTerritoryMoves.Orders.OfType <BotOrderDeploy>().First().Territory;
var pam = new BotOrderDeploy(BotState.Me.ID, territoryToDeploy, maxDeployment);
outvar.AddOrder(pam);
return(outvar);
}
else
{
return(null);
}
}
else
{
return(null);
}
}
else
{
outvar = takeTerritoryMoves;
return(outvar);
}
}
public static Moves CalculateNoPlanCleanupDeploymentTask(BotMain state, int armiesToDeploy, Moves movesSoFar)
{
var outvar = new Moves();
if (armiesToDeploy > 0)
{
var bestDeploymentTerritory = GetBestDeploymentTerritory(state, movesSoFar);
outvar.AddOrder(new BotOrderDeploy(state.Me.ID, bestDeploymentTerritory, armiesToDeploy));
}
return(outvar);
}
/// <summary>Calculates the minimum opponent moves that he needs to make if we don't deploy.
/// </summary>
/// <param name="state"></param>
/// <param name="ownedTerritories"></param>
/// <returns></returns>
private static Moves CalculateMinimumOpponentMoves(BotMain state, PlayerIDType opponentID, List <BotTerritory> ownedTerritories, BotTerritory.DeploymentType conservativeLevel)
{
var outvar = new Moves();
foreach (var ownedTerritory in ownedTerritories)
{
var attackingOpponentTerritory = GetOpponentNeighborMaxIdleArmies(state, opponentID, ownedTerritory, outvar);
if (attackingOpponentTerritory == null)
{
continue;
}
var stilIdleArmies = CalculateStillOpponentIdleArmies(state, attackingOpponentTerritory, outvar);
var attackingOpponentArmies = SharedUtility.Round(ownedTerritory.GetArmiesAfterDeploymentAndIncomingAttacks(conservativeLevel).DefensePower / state.Settings.OffensiveKillRate);
var opponentDeployment = Math.Max(0, attackingOpponentArmies - stilIdleArmies.DefensePower);
if (opponentDeployment > 0)
{
outvar.AddOrder(new BotOrderDeploy(opponentID, attackingOpponentTerritory, opponentDeployment));
}
outvar.AddOrder(new BotOrderAttackTransfer(opponentID, attackingOpponentTerritory, ownedTerritory, new Armies(attackingOpponentArmies), "PreventTerritoriesTask"));
}
// Now let's assume that the opponent doesen't leave armies idle
var hasSomethingChanged = true;
while (hasSomethingChanged)
{
hasSomethingChanged = false;
foreach (var attackTransferMove in outvar.Orders.OfType <BotOrderAttackTransfer>())
{
var stillIdleArmies = CalculateStillOpponentIdleArmies(state, attackTransferMove.From, outvar);
if (stillIdleArmies.IsEmpty == false)
{
hasSomethingChanged = true;
attackTransferMove.Armies = attackTransferMove.Armies.Add(new Armies(1));
}
}
}
return(outvar);
}
public static Moves CalculateNoPlanAttackBestTerritoryTask(BotMain state, int maxDeployment)
{
var outvar = new Moves();
// If true attacks are possible then go with them
// If true attacks are possible then go with them
var sortedOpponentTerritories = state.TerritoryValueCalculator.GetSortedAttackValueTerritories();
var territoriesToAttack = NoPlanBreakBestTerritoryTask.RemoveTerritoriesThatWeTook
(state, sortedOpponentTerritories);
foreach (var territory in territoriesToAttack)
{
if (territory.IsVisible)
{
var attackTerritoryMoves = AttackTerritoryTask.CalculateAttackTerritoryTask(state, territory, maxDeployment);
if (attackTerritoryMoves != null)
{
return(attackTerritoryMoves);
}
// If we can't truly attack then attack with 1's
var allowedSmallAttacks = territory.Armies.NumArmies - state.MustStandGuardOneOrZero;
allowedSmallAttacks -= GetAlreadyPresentSmallAttacks(territory);
foreach (var ownedNeighbor in territory.GetOwnedNeighbors())
{
if (allowedSmallAttacks > 0 && ownedNeighbor.GetIdleArmies().NumArmies > 0 && !IsTerritoryAlreadySmallAttackedFromOurTerritory(ownedNeighbor, territory))
{
var alreadyAttacksOpponent = false;
foreach (var atm in ownedNeighbor.OutgoingMoves)
{
if (atm.Armies.AttackPower > 1 && state.IsOpponent(atm.To.OwnerPlayerID))
{
alreadyAttacksOpponent = true;
}
}
if (!alreadyAttacksOpponent)
{
var atm_1 = new BotOrderAttackTransfer(state.Me.ID, ownedNeighbor, territory, new Armies(1), "NoPlanAttackBestTerritoryTask");
outvar.AddOrder(atm_1);
allowedSmallAttacks--;
}
}
}
if (outvar.Orders.OfType <BotOrderAttackTransfer>().Any())
{
return(outvar);
}
}
}
// If absolutely no attack possible then return null
return(null);
}
public static Moves CalculateJoinInAttacksTask(BotMain state)
{
var outvar = new Moves();
foreach (var ourTerritory in state.VisibleMap.GetOpponentBorderingTerritories())
{
var bestSeriouslyAttackedNeighbor = GetBestSeriouslyAttackedNeighbor(ourTerritory);
if (ourTerritory.GetIdleArmies().AttackPower > 1 && bestSeriouslyAttackedNeighbor != null)
{
outvar.AddOrder(new BotOrderAttackTransfer(state.Me.ID, ourTerritory, bestSeriouslyAttackedNeighbor, ourTerritory.GetIdleArmies(), "JoinInAttacksTask"));
}
}
return(outvar);
}
public static Moves CalculateJoinStackMoves(BotMain state)
{
// Calculate the border territories and the territories bordering border territories
var outvar = new Moves();
var possibleFromTerritories = new HashSet <BotTerritory>();
possibleFromTerritories.AddRange(state.VisibleMap.GetBorderTerritories());
var temp = new HashSet <BotTerritory>();
foreach (var territory in possibleFromTerritories)
{
temp.AddRange(territory.GetOwnedNeighbors());
}
possibleFromTerritories.AddRange(temp);
// Calculate which territories use for transferring
List <BotTerritory> goodTransferTerritories = new List <BotTerritory>();
foreach (var possibleFromTerritory in possibleFromTerritories)
{
if (possibleFromTerritory.GetOpponentNeighbors().Count == 0 || possibleFromTerritory.DefenceTerritoryValue < TerritoryValueCalculator.LOWEST_HIGH_PRIORITY_VALUE)
{
goodTransferTerritories.Add(possibleFromTerritory);
}
}
// Calculate where to transfer to
foreach (var territory_1 in goodTransferTerritories)
{
if (territory_1.GetOwnedNeighbors().Count > 0 && territory_1.GetIdleArmies().IsEmpty == false)
{
var territoryValue = territory_1.DefenceTerritoryValue;
BotTerritory bestNeighbor = null;
var bestNeighborValue = -1;
foreach (var neighbor in territory_1.GetOwnedNeighbors())
{
if (neighbor.GetOpponentNeighbors().Count > 0 && neighbor.DefenceTerritoryValue > bestNeighborValue)
{
bestNeighbor = neighbor;
bestNeighborValue = neighbor.DefenceTerritoryValue;
}
}
if (bestNeighbor != null && bestNeighborValue > territoryValue)
{
var atm = new BotOrderAttackTransfer(state.Me.ID, territory_1, bestNeighbor, territory_1.GetIdleArmies(), "TransferMovesChooser1");
outvar.AddOrder(atm);
}
}
}
return(outvar);
}
public static void PlayCardsBeginTurn(BotMain state, Moves moves)
{
//If there are any humans on our team that have yet to take their turn, do not play cards.
if (state.Me.Team != PlayerInvite.NoTeam && state.Players.Values.Any(o => state.IsTeammate(o.ID) && !o.IsAIOrHumanTurnedIntoAI && o.State == GamePlayerState.Playing && !o.HasCommittedOrders))
{
return;
}
foreach (var reinforcementCard in state.CardsHandler.GetCards(CardTypes.Reinforcement))
{
var numArmies = reinforcementCard.As <ReinforcementCard>().Armies;
AILog.Log("PlayCardsTask", "Playing reinforcement card " + reinforcementCard.CardInstanceId + " for " + numArmies + " armies");
moves.AddOrder(new BotOrderGeneric(GameOrderPlayCardReinforcement.Create(reinforcementCard.CardInstanceId, state.Me.ID)));
state.MyIncome.FreeArmies += numArmies;
}
}
/// <summary>Calculates the movement of idle armies to join in expansion steps.</summary>
/// <remarks>Calculates the movement of idle armies to join in expansion steps.</remarks>
/// <returns></returns>
public static Moves CalculateMoveIdleExpansionArmiesTask(BotMain state)
{
var outvar = new Moves();
foreach (var ourTerritory in state.VisibleMap.GetNonOpponentBorderingBorderTerritories())
{
if (ourTerritory.GetIdleArmies().IsEmpty == false && ourTerritory.GetExpansionMoves().Count > 0)
{
var bestMove = GetBestExpansionMoveToAddArmies(ourTerritory.GetExpansionMoves());
if (IsAddingArmiesBeneficial(bestMove))
{
outvar.AddOrder(new BotOrderAttackTransfer(state.Me.ID, ourTerritory, bestMove.To, ourTerritory.GetIdleArmies(), "MoveIdleArmiesTask2"));
}
}
}
return(outvar);
}
private Moves GetSortedMoves(List <BotOrder> movesSoFar)
{
Moves sortedMoves = new Moves();
sortedMoves.Orders.AddRange(GetSortedDeployment(movesSoFar));
List <BotOrder> unhandledMoves = movesSoFar.Where(o => !(o is BotOrderDeploy)).ToList();
BotMap movesMap = BotState.VisibleMap.GetMapCopy();
while (unhandledMoves.Count > 0)
{
var nextMove = GetNextMove(unhandledMoves, movesMap);
unhandledMoves.Remove(nextMove);
sortedMoves.AddOrder(nextMove);
if (nextMove is BotOrderAttackTransfer)
{
BotState.MapUpdater.UpdateMap((BotOrderAttackTransfer)nextMove, movesMap, BotTerritory.DeploymentType.Conservative);
}
}
return(sortedMoves);
}
public static Moves CalculateNoPlanCleanupExpansionTask(BotMain state, Moves movesSoFar)
{
var outvar = new Moves();
foreach (var fromTerritory in state.VisibleMap.GetNonOpponentBorderingBorderTerritories())
{
var possibleToTerritories = new List <BotTerritory>();
foreach (var nonOwnedNeighbor in fromTerritory.GetNonOwnedNeighbors())
{
if (nonOwnedNeighbor.OwnerPlayerID == TerritoryStanding.NeutralPlayerID && IsUnplannedExpansionStepSmart(state, fromTerritory, nonOwnedNeighbor))
{
possibleToTerritories.Add(nonOwnedNeighbor);
}
}
if (possibleToTerritories.Count > 0)
{
var territoryToAttack = possibleToTerritories.OrderByDescending(t => t.Bonuses.Sum(b => b.GetExpansionValue()) * 100 + t.ExpansionTerritoryValue).First();
outvar.AddOrder(new BotOrderAttackTransfer(state.Me.ID, fromTerritory, territoryToAttack, fromTerritory.GetIdleArmies(), "NoPlanCleanupTask"));
}
}
return(outvar);
}
public static void DiscardCardsEndTurn(BotMain state, Moves moves)
{
//If there are players on our team that have yet to take their turn, do not discard cards
if (state.Me.Team != PlayerInvite.NoTeam && state.Players.Values.Any(o => state.IsTeammate(o.ID) && o.State == GamePlayerState.Playing && !o.HasCommittedOrders))
{
return;
}
// Discard as many cards as needed
var cardsWePlayed = moves.Convert().OfType <GameOrderPlayCard>().Select(o => o.CardInstanceID).ToHashSet(true);
var cardsPlayedByAnyone = state.CardsPlayedByTeammates.Concat(cardsWePlayed).ToHashSet(true);
int numMustPlay = state.CardsMustPlay;
foreach (var card in state.Cards)
{
if (numMustPlay > 0 && !cardsPlayedByAnyone.Contains(card.ID))
{
AILog.Log("PlayCardsTask", "Discarding card " + card.ID);
moves.AddOrder(new BotOrderGeneric(GameOrderDiscard.Create(state.Me.ID, card.ID)));
numMustPlay--;
}
}
}
