Введение

Действие игры разворачивается в маленьком мире с разными городами. Правители городов ненавидят друг друга и хотели бы править миром. Люди делятся на две группы: воины и низменные. Тем не менее, малорожденные могут подняться на воинов. Вы правитель трех из этих городов.

Игровой процесс

Когда игра начинается, вы управляете тремя городами. В каждом городе 100 человек. Вы должны разделить их на рыцарей и низменных.

Затем начинается настоящая игра, которая пошаговая. Ход выглядит так: "Produce" knights=> execute command of first town=> execute command of next town(повторите для всех городов) => try a rebellion.

• Каждый ход ваша программа будет вызываться для каждого города, который принадлежит вам . Вы можете атаковать город , поддержать город или просто подождать . Эти действия будут выполняться последовательно, а не одновременно.
• Каждый третий ход, вы получаете одного рыцаря на 2 младших (23 младших => 11 рыцарей). Количество новорожденных остается неизменным.
• Рыцари внутри города имеют бонус защиты 1,2. Если вас атакуют, ваши рыцари будут умножены на это число (например 78 knights, у вас это будет 93 knightsво время атаки). После атаки лишние рыцари будут удалены (если 82 knightsвыживут, у вас все равно останется 78 knights).
• В атаке каждый рыцарь убивает врага, прежде чем он умрет. Например: 30 knightsатака 100 knights(без бонуса защиты) => 70 рыцарей выживают.
• Вы можете захватить город, убив всех рыцарей внутри него . Теперь все низменные принадлежат вам, а ваши выжившие рыцари находятся в городе. В следующем раунде вы можете управлять этим городом в дополнение ко всем другим городам .
• После захвата города у него не будет бонуса защиты в течение 2 полных ходов (потому что ворота сломаны). На третьем повороте ворота будут отремонтированы.
• Чтобы препятствовать восстанию низменных, вам нужно по крайней мере вдвое меньше рыцарей, чем низеньких (в городе для 23 нижних нужно по меньшей мере 12 рыцарей в одном городе). В противном случае низменные убьют всех рыцарей, и город станет «нейтральным» (без лидера, обозначенного PlayerId -1).
• Нейтральные города будут «производить» рыцарей, но не будут атаковать и поддерживать какой-либо другой город.

Синтаксис

Контроллер предоставляет вам ввод через аргументы команды, ваша программа должна выводить через stdout.

Вывод (подготовка)
Перед началом игры контроллер вызывает вашу подачу без аргументов. Это означает, что вы должны распределить свои 100 человек (для каждого города) на рыцарей и низменных. Вам нужно вывести KnightCount KnightCount KnightCount, например 95 80 95.

Входные данные
Round;YourPlayerId;YourTownId;PlayerId_TownId_knights_lowborns;PlayerId_TownId_knights_lowborns;...
В первом раунде это будет что-то вроде 1;2;2;0_0_100_0;1_1_50_50;2_2_80_20. Здесь вы видите, что это первый раунд, вы являетесь игроком 2 в городе 2. У вас 80 рыцарей и 20 низменных.

Позже в игре это может быть что-то вроде 20;2;1;0_0_100_0;2_1_30_50;2_2_40_20. Вы по-прежнему игрок 2 (это никогда не меняется), но вы захватили город 1 (который вы контролируете прямо сейчас).

Выход
A TownId NumberOfKnights или S TownId NumberOfKnightsили W(для ожидания).
Пример: A 2 100(атаковать город 2 с 100 рыцарями) или S 3 2(поддержать город 3 с 2 рыцарями).

правила

• Боты не должны быть написаны, чтобы побеждать или поддерживать определенных других ботов
• Запись в файлы разрешена. Пожалуйста, напишите « yoursubmissionname .txt», папка будет очищена перед началом игры. Другие внешние ресурсы запрещены.
• Ваше представление имеет 1 секунду, чтобы ответить (в каждом городе).
• Предоставьте команды для компиляции и запуска ваших представлений.

выигрыш

Победителем считается тот, у кого больше городов после 100 раундов. Если игрок захватывает все города, игра останавливается и он выигрывает. Если у нескольких игроков одинаковое количество городов, количество рыцарей будет учитываться, тогда как количество низших.

контроллер

Вы можете найти контроллер на GitHub. Он также содержит 2 примера ботов, написанных на Java. Откройте его в Eclipse, поместите скомпилированные боты в корневую папку и добавьте класс в управляющую программу (так же, как в примере с ботами).

Полученные результаты

Для окончательных результатов я провел 10 игр. Это среднее:

    Игрок Городов 
 1. Освободитель 37,5
 2. Сехтимианер 8.2
 3. СуперПроизводитель 5.4
 4. Спальное место 1.4
 5. Франкенштейн 1.2
 6. Масло 0,8 (больше рыцарей)
 7. TheKing 0.8 (меньше рыцарей)
 8. Исход 0.6
 9. Черепаха 0,5 (больше рыцарей)
10. AttackOn3 0.5 (меньше рыцарей)
11. Демократия 0,3
12. CalculatedFail 0.2
13. Революционер 0.1

Вы можете прочитать пример игры здесь: пример игры на github

Python3, освободитель

from sys import argv
from math import ceil, floor

class OppressedTown:
    def __init__(self, owner_id, id, oppressors, oppressed):
        self.owner_id = owner_id
        self.id = id
        self.oppressors = oppressors
        self.oppressed = oppressed

    def get_free_oppressors(self):
        return self.oppressors - ceil(self.oppressed / 2)

    def get_needed_liberators(self):
        return ceil(self.oppressed / 2)

class LiberatedTown:
    def __init__(self, owner_id, id, liberators, liberated):
        self.owner_id = owner_id
        self.id = id
        self.liberators = liberators
        self.liberated = liberated

    def get_free_liberators(self):
        return self.liberators - ceil(self.liberated / 2)

    def get_needed_liberators(self):
        return ceil(self.liberated / 2)

    def is_safe(self):
        return self.liberators >= self.liberated * 2

    def get_unneeded_liberators(self):
        return self.liberators - self.liberated * 2

def safe_div(a, b):
    try:
        c = a / b
    except ZeroDivisionError:
        if a == 0:
            c = 0
        else:
            c = float("inf")
    return c

def main():
    if len(argv) == 1:
        print ("100 100 100")
    else:
        decision = decide()
        print (decision)

def decide():
    def needs_urgent_support(town):
        return town.get_needed_liberators() >= town.liberators and town.liberated > 0

    def can_beat(free_liberators, town):
        return free_liberators > town.oppressors * 1.2 + town.get_needed_liberators()

    def can_damage(free_liberators, town):
        return free_liberators > town.oppressors * 0.2

    args = argv[1].split(";")
    round = int(args[0])
    me = int(args[1])
    current_id = int(args[2])
    liberated_towns = []
    oppressed_towns = []

    for i in range(3, len(args)):
        infos = list(map(int, args[i].split("_")))
        if infos[0] != me:
            oppressed_towns.append(OppressedTown(infos[0], infos[1], infos[2], infos[3]))
        else:
            liberated_towns.append(LiberatedTown(infos[0], infos[1], infos[2], infos[3]))

    current_town = [town for town in liberated_towns if town.id == current_id][0]
    free_liberators = current_town.get_free_liberators()

    total_oppressors = sum(town.liberators for town in liberated_towns)
    total_oppressors = sum(town.oppressors for town in oppressed_towns)
    total_liberated = sum(town.liberated for town in liberated_towns)
    total_oppressed = sum(town.oppressed for town in oppressed_towns)

    oppressed_towns.sort(key=lambda town: safe_div(town.oppressed, town.oppressors), reverse=True)

    most_oppressed = oppressed_towns[-1]

    if free_liberators > 0:
        for town in liberated_towns:
            if town.id != current_id and needs_urgent_support(town):
                return "S {0} {1}".format(town.id, free_liberators // 2)

        if current_town.is_safe():
            free_liberators = current_town.get_unneeded_liberators()

            if free_liberators > 0:
                for town in oppressed_towns:
                    if can_beat(free_liberators, town):
                        if total_liberated <= total_oppressed or town.owner_id != -1 or not any(town.owner_id != -1 for town in oppressed_towns):
                            return "A {0} {1}".format(town.id, free_liberators)
                        else:
                            continue
                    else:
                        break

                for town in liberated_towns:
                    if not town.is_safe():
                        return "S {0} {1}".format(town.id, free_liberators)

                liberated_towns.sort(key=lambda town: (town.liberated, town.liberators), reverse=True)

##                if current_id == liberated_towns[0].id and total_oppressors > total_oppressors and can_damage(free_liberators, most_oppressed):
##                    return "A {0} {1}".format(most_oppressed.id, free_liberators)

                if current_id != liberated_towns[0].id:
                    return "S {0} {1}".format(liberated_towns[0].id, free_liberators)

    return "W"

main()

Единственная цель этого бота - освободить самых обычных людей от гнета тирании.

Python 2, Король

Король правит самым многочисленным городом своей империи и требует, чтобы все лишние рыцари были отправлены к нему из других городов, находящихся под его контролем. Когда у него будет достаточно рыцарей, он нападет на вражеский город. Он не очень умный король, поэтому не изучал историю и не понимает последствий своих действий.

import sys
from random import *

PLAYER, TOWN, KNIGHTS, SERFS = range(4)

if len(sys.argv) < 2:
    print randint(20,100), randint(50,100), randint(70,100)
else:
    parts = sys.argv[1].split(';')
    turn, me, thistown = [int(parts.pop(0)) for i in range(3)]
    towns = [[int(v) for v in town.split('_')] for town in parts]
    enemy = [t for t in towns if t[PLAYER] != me]
    mytowns = [t for t in towns if t[PLAYER] == me]
    here = [t for t in mytowns if t[TOWN] == thistown][0]

    avgfree = sum(t[KNIGHTS]-t[SERFS]/2 for t in towns) / len(towns)
    free = here[KNIGHTS] - here[SERFS]/2
    last = mytowns[-1]
    if here == last:
        needed, target = min([(t[KNIGHTS]*1.2+t[SERFS]/2, t) for t in enemy])
        if free > needed+5:
            print 'A', target[TOWN], int(free+needed)/2 + 1
        else:
            print 'W'
    else:
        spare = max(0, free - avgfree)
        if spare:
            print 'S', last[TOWN], spare
        else:
            print 'W'

Это не проверено с контроллером или другими ботами.

Javascript (Узел), Империя

Начинает сильно, чтобы отпугнуть другие города. Города пытаются работать вместе, чтобы захватить других. Приоритеты захвата городов с множеством низменных.

/*jshint node:true*/
'use strict';

function startGame() {
  console.log('80 70 60');
}

function parseArgs(args) {
  var state = {
    players: [],
    towns: []
  };
  var argArray = args.split(';');
  state.currentTurn = parseInt(argArray.splice(0, 1)[0], 10);
  var myId = argArray.splice(0, 1)[0];
  var myTownId = parseInt(argArray.splice(0, 1)[0], 10);

  for(var townIndex = 0; townIndex < argArray.length; townIndex++) {
    var townArgs = argArray[townIndex].split('_');
    var playerId = townArgs[0];
    var townId = parseInt(townArgs[1], 10);
    var player = state.players[playerId];

    if(!player) {
      player = {
        towns: []
      };
      state.players[playerId] = player;
    }

    var town = {
      id: townId,
      knights: parseInt(townArgs[2], 10),
      lowborns: parseInt(townArgs[3], 10),
      player: player
    };

    state.towns[townId] = town;
    player.towns.push(town);
  }

  state.me = state.players[myId];
  state.currentTown = state.towns[myTownId];

  return state;
}

function getDefense(town) {
  return Math.floor(town.knights * 1.2) + Math.ceil(town.lowborns / 2) + 1;
}

function getAttackers(town) {
  return Math.max(town.knights - Math.ceil(town.lowborns / 2), 0);
}

function attackTown(town, strength) {
  console.log('A ' + town.id + ' ' + strength);
}

function supportTown(town, strength) {
  console.log('S ' + town.id + ' ' + strength);
}

function wait() {
  console.log('W');
}

function processTurn(gameState) {
  var attackers = getAttackers(gameState.currentTown);

  if(attackers > 0) {
    var totalAttackers = attackers;

    var helperIndex = (gameState.currentTown.id + 1) % gameState.towns.length;
    while(gameState.towns[helperIndex].player === gameState.me) {
      totalAttackers += getAttackers(gameState.towns[helperIndex]);
      helperIndex = (helperIndex + 1) % gameState.towns.length;
    }

    var bestTarget;

    for(var targetIndex = 0; targetIndex < gameState.towns.length; targetIndex++) {
      var targetTown = gameState.towns[targetIndex];
      if(targetTown.player !== gameState.me) {
        var defense = getDefense(targetTown);

        if(defense < totalAttackers) {
          if(!bestTarget) {
            bestTarget = targetTown;
          }
          else if(targetTown.lowborns > bestTarget.lowborns) {
            bestTarget = targetTown;
          }
          else if(getDefense(bestTarget) < defense) {
            bestTarget = targetTown;
          }
        }
      }
    }

    if(bestTarget) {
      return attackTown(bestTarget, Math.min(attackers, getDefense(bestTarget)));
    }

    var smallestTown;
    var smallestSize = gameState.currentTown.knights;

    for(var myTownIndex = 0; myTownIndex < gameState.me.towns.length; myTownIndex++) {
      var myTown = gameState.me.towns[myTownIndex];
      if(myTown.knights < smallestSize) {
        smallestTown = myTown;
        smallestSize = smallestTown.knights;
      }
    }

    if(smallestTown) {
      var supporters = Math.floor((smallestSize - gameState.currentTown.knights) / 2);
      supporters = Math.min(supporters, attackers);
      if(supporters > 0) {
        return supportTown(smallestTown, supporters);
      }
    }
  }

  wait();
}

if(process.argv.length <= 2) {
  startGame();
}
else {
  var gameState = parseArgs(process.argv[2]);  
  processTurn(gameState);
}

Выполнить: узел империи

Ява, Франкенштейн

Пытаясь найти способ уничтожить Освободителя, небольшая ошибка просочилась в мой код. Затем код начал разрушать конкурентов. После добавления Демократии и перестановки игроков, это начало терпеть неудачу. Изучая код, я попытался найти его стратегию. Следовательно, следующий код был сделан. Он имеет тенденцию атаковать и уничтожать лучшего игрока. После того, как лучшие игроки будут уничтожены, это легко уничтожит остальных.

import java.io.*;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

public class Frankenstein {

    int round;
    int playerID;
    int thisTownID;

    List<Town> towns;
    List<Town> myTowns;
    List<Town> otherTowns;

    private static final boolean DEBUG = true;

    Town thisTown;

    int scariestPlayerId = -1;
    int scariestPlayerRecord = -1;

    private static final String LOG_FILE_NAME = "EmperorLog.txt";

    private static final String DATA_FILE_NAME = "Emperor.txt";

    public static void main(String[] args){
        try {
            if (args.length == 0) {
                System.out.println("100 100 100");
                return;
            }
            Frankenstein frankenstein = new Frankenstein();
            String result = frankenstein.destroy(args[0].split(";"));
            frankenstein.saveScariestPlayer();
            System.out.println(result);
            if (DEBUG) {
                new PrintStream(new FileOutputStream(LOG_FILE_NAME, true)).print(args[0] + "\n" + result + "\n");
            }
        } catch (Exception e){
            if (DEBUG) {
                try {
                    e.printStackTrace(new PrintStream(new FileOutputStream(LOG_FILE_NAME, true)));
                } catch (FileNotFoundException e1) {
                    e1.printStackTrace();
                }
            }
        }
    }

    private void saveScariestPlayer() throws FileNotFoundException {
        PrintStream out = new PrintStream(DATA_FILE_NAME);
        out.println(round);
        out.println(scariestPlayerId);
        out.println(scariestPlayerRecord);
    }

    private static int divide(int a, int b){
        if (a == 0){
            return 0;
        }
        if (b == 0){
            return 1000;
        }
        return a/b;
    }

    private String destroy(String[] args) {

        round = Integer.parseInt(args[0]);
        playerID = Integer.parseInt(args[1]);
        thisTownID = Integer.parseInt(args[2]);
        towns = new ArrayList<>();
        myTowns = new ArrayList<>();
        otherTowns = new ArrayList<>();


        for (int i = 3; i < args.length; i++) {
            towns.add(new Town(args[i]));
        }

        for (Town town : towns) {
            if (town.isMine()) {
                myTowns.add(town);
                if (town.isThisTown()) {
                    thisTown = town;
                }
            } else {
                otherTowns.add(town);
            }
        }

        loadScariestPlayer();
        updateScariestPlayer();

        if (thisTown.getFreeKnights() > 0){

            for (Town town : myTowns){
                if (town.needsHelp() && town.getFreeKnights() + thisTown.getFreeKnights() >= 0){
                    return "S " + town.getId() + " " + thisTown.getFreeKnights();
                }
            }

            Town bestTown = otherTowns.stream().max((a, b) -> divide(a.lowbornCount() * (scariestPlayerId == -1 || scariestPlayerId == a.ownerId ? a.lowbornCount() : 1), a.knightCount()) -
                    divide(b.lowbornCount() * (scariestPlayerId == -1 || scariestPlayerId == b.ownerId ? b.lowbornCount() : 1), b.knightCount())).get();

            if (bestTown.numberOfKnightsToConquer() <= thisTown.getFreeKnights()){
                return "A " + bestTown.getId() + " " + thisTown.getFreeKnights();
            }

            myTowns.sort((a,b) -> b.knightCount() - a.knightCount());
            myTowns.sort((a,b) -> b.lowbornCount() - a.lowbornCount());
            if (!myTowns.get(0).isThisTown()){
                return "S " + myTowns.get(0).getId() + " " + thisTown.getFreeKnights();
            }

        }

        return "W";

    }

    private void updateScariestPlayer() {
        Map<Integer, Integer> playerMap = new HashMap<>();
        int biggestPlayerId = -1;
        for (Town town : otherTowns){
            if (playerMap.containsKey(town.ownerId)){
                playerMap.put(town.ownerId, town.lowbornCount() + playerMap.get(town.ownerId));
            } else {
                playerMap.put(town.ownerId, town.lowbornCount());
            }
            if (biggestPlayerId == -1 || playerMap.get(town.ownerId) > playerMap.get(biggestPlayerId)){
                biggestPlayerId = town.ownerId;
            }
        }
        if (scariestPlayerId == -1 || scariestPlayerRecord == -1 || !playerMap.containsKey(scariestPlayerId) || playerMap.get(biggestPlayerId) > scariestPlayerRecord){
            scariestPlayerId = biggestPlayerId;
            scariestPlayerRecord = playerMap.get(biggestPlayerId);
        }
    }

    private void loadScariestPlayer() {
        try {
            BufferedReader in = new BufferedReader(new FileReader(DATA_FILE_NAME));
            int turn = Integer.parseInt(in.readLine());
            if (turn != round || turn != round + 1){
                throw new Exception();
            }
            scariestPlayerId = Integer.parseInt(in.readLine());
            scariestPlayerRecord = Integer.parseInt(in.readLine());
        } catch (Exception e) {
            scariestPlayerId = -1;
            scariestPlayerRecord = -1;
        }
    }


    private class Town {
        final int ownerId;
        final int id;
        final int knights;
        final int lowborns;
        boolean defenseBonus;

        Town(String string) {
            String[] args = string.split("_");
            ownerId = Integer.parseInt(args[0]);
            id = Integer.parseInt(args[1]);
            knights = Integer.parseInt(args[2]);
            lowborns = Integer.parseInt(args[3]);
            defenseBonus = true;
        }

        int getId() {
            return id;
        }

        int knightCount() {
            return knights;
        }

        int lowbornCount() {
            return lowborns;
        }

        boolean isMine() {
            return ownerId == playerID;
        }

        boolean isThisTown() {
            return id == thisTownID;
        }

        int getFreeKnights() {
            return knights - lowborns / 2 - 1;
        }

        int numberOfKnightsToConquer() {
            if (defenseBonus) {
                return ((knights * 6) / 5) + (lowborns / 2) + 1;
            } else {
                return knights + lowborns/2 + 1;
            }
        }

        int numberOfKnightsToOverthrow(){
            if (defenseBonus) {
                return (((knights * 6) / 5) - (lowborns / 2)) + 1;
            } else {
                return knights - lowborns / 2 + 1;
            }
        }

        boolean needsHelp() {
            return getFreeKnights() < 0;
        }

        public boolean isNeutural() {
            return ownerId == -1;
        }
    }
}

Вот оригинальный плеер:

import java.util.ArrayList;
import java.util.List;

public class Frankenstein {

    int round;
    int playerID;
    int thisTownID;

    List<Town> towns;
    List<Town> myTowns;
    List<Town> otherTowns;

    Town thisTown;

    Player me;

    public static void main(String[] args) {
        if (args.length == 0) {
            System.out.println("100 100 100");
            return;
        }
        new Frankenstein().destroy(args[0].split(";"));
    }

    private static int divide(int a, int b){
        if (a == 0){
            return 0;
        }
        if (b == 0){
            return 1000000;
        }
        return a/b;
    }

    private void destroy(String[] args) {
        round = Integer.parseInt(args[0]);
        playerID = Integer.parseInt(args[1]);
        thisTownID = Integer.parseInt(args[2]);
        towns = new ArrayList<>();
        myTowns = new ArrayList<>();
        otherTowns = new ArrayList<>();


        for (int i = 3; i < args.length; i++) {
            towns.add(new Town(args[i]));
        }

        for (Town town : towns) {
            if (town.isMine()) {
                myTowns.add(town);
                if (town.isThisTown()) {
                    thisTown = town;
                }
            } else {
                otherTowns.add(town);
            }
        }

        players.stream().filter(player -> player.id == playerID).forEach(player -> me = player);

        if (thisTown.getFreeKnights() > 0){

            for (Town town : myTowns){
                if (town.needsHelp()){
                    System.out.println("S " + town.getId() + " " + thisTown.getFreeKnights() / 2);
                    return;
                }
            }

            Town richestTown = otherTowns.stream().max((a, b) -> divide(a.lowbornCount(), a.knightCount()) -
                    divide(b.lowbornCount(), b.knightCount())).get();

            if (richestTown.numberOfKnightsToConquer() < thisTown.getFreeKnights()){
                System.out.println("A " + richestTown.getId() + " " + thisTown.getFreeKnights());
                return;
            }

            otherTowns.sort((a,b) -> divide(b.lowbornCount() * b.owner.richness(), b.getFreeKnights()) -
                    divide(a.lowbornCount() * a.owner.richness(), a.getFreeKnights()));

            if (thisTown.getFreeKnights() >= otherTowns.get(0).numberOfKnightsToOverthrow() && !otherTowns.get(0).isNeutral()){
                System.out.println("A " + otherTowns.get(0).getId() + " " + otherTowns.get(0).numberOfKnightsToOverthrow());
                return;
            }

            myTowns.sort((a,b) -> b.knightCount() - a.knightCount());
            myTowns.sort((a,b) -> b.lowbornCount() - a.lowbornCount());
            if (!myTowns.get(0).isThisTown()){
                System.out.println("S " + myTowns.get(0).getId() + " " + thisTown.getFreeKnights());
                return;
            }

        }

        System.out.println("W");

    }


    private class Town {
        private final int ownerId;
        private final int id;
        private final int knights;
        private final int lowborns;
        private final Player owner;

        private Town(String string) {
            String[] args = string.split("_");
            ownerId = Integer.parseInt(args[0]);
            id = Integer.parseInt(args[1]);
            knights = Integer.parseInt(args[2]);
            lowborns = Integer.parseInt(args[3]);
            for (Player player : players){
                if (player.id == ownerId){
                    player.addTown(this);
                    owner = player;
                    return;
                }
            }
            owner = new Player(id);//This mistake makes my player perform really good for some reason.
            owner.towns.add(this);
        }

        private int getId() {
            return id;
        }

        private int knightCount() {
            return knights;
        }

        private int lowbornCount() {
            return lowborns;
        }

        private boolean isMine() {
            return ownerId == playerID;
        }

        private boolean isThisTown() {
            return id == thisTownID;
        }

        private int getFreeKnights() {
            return knights - lowborns / 2 - 1;
        }

        private int numberOfKnightsToConquer() {
            return ((knights * 6) / 5) + (lowborns / 2) + 1;
        }

        private int numberOfKnightsToOverthrow(){
            return (((knights * 6) / 5) - (lowborns / 2)) + 1;
        }

        private boolean needsHelp() {
            return getFreeKnights() < 0;
        }

        private boolean isNeutral() {
            return owner.id == -1;
        }

    }

    List<Player> players = new ArrayList<>();

    private class Player{

        int id;

        List<Town> towns;

        int richness = 0;

        Player(int id){
            this.id = id;
            this.towns = new ArrayList<>();
            players.add(this);
        }

        void addTown(Town t){
            towns.add(t);
            richness += t.lowbornCount();
        }

        int richness(){
            return id == -1 ? (towns.size() > 0 ? 1 : 0) : richness;
        }

    }
}

Ява, Черепаха

Благодаря TheBestOne за основные методы, я просто изменил алгоритм (надеюсь, все в порядке). Этот бот в основном модернизирует свой самый защищенный город, чтобы конкурировать с самым опасным вражеским городом, сохраняя достаточно рыцарей, чтобы предотвратить восстание в других его городах.

import java.util.ArrayList;
import java.util.List;


public class Turtle {


    int round;
    int playerID;
    int thisTownID;

    List<Town> towns;
    List<Town> myTowns;
    List<Town> otherTowns;

    Town thisTown;

    public static void main(String[] args){
        if (args.length == 0){
            System.out.println("34 34 34");
            return;
        }
        new Turtle().defend(args[0].split(";"));
    }

    private void defend(String[] args) {
        round = Integer.parseInt(args[0]);
        playerID = Integer.parseInt(args[1]);
        thisTownID = Integer.parseInt(args[2]);
        towns = new ArrayList<>();
        myTowns = new ArrayList<>();
        otherTowns = new ArrayList<>();

        for (int i = 3; i < args.length; i++){
            towns.add(new Town(args[i]));
        }

        for (Town town : towns){
            if (town.isMine()){
                myTowns.add(town);
                if (town.isThisTown()){
                    thisTown = town;
                }
            } else {
                otherTowns.add(town);
            }
        }

        Town bestDefendedTown = null;
        for (Town town : myTowns) {
            if (bestDefendedTown == null)
                bestDefendedTown = town;

            bestDefendedTown = bestDefendedTown.knightCount() >= town.knightCount() ? bestDefendedTown : town;
        }

        Town dangerousEnemyTown = null;
        for (Town town : otherTowns) {
            if (dangerousEnemyTown == null)
                dangerousEnemyTown = town;

            dangerousEnemyTown = dangerousEnemyTown.knightCount() >= town.knightCount() ? dangerousEnemyTown : town;
        }

        int missingKnights = dangerousEnemyTown.knightCount() - bestDefendedTown.knightCount() > 0 ? dangerousEnemyTown.knightCount() - bestDefendedTown.knightCount() : 0;
        int reinforcements = thisTown.getFreeKnights() - (missingKnights + 1) > 0 ? thisTown.getFreeKnights() - (missingKnights + 1) : thisTown.getFreeKnights(); 


        if (reinforcements > 0) {
            System.out.println("S " + bestDefendedTown.getId() + " " + reinforcements);
        } else {
            System.out.println("W");
        }
    }



    private class Town {
        private final int ownerId;
        private final int id;
        private final int knights;
        private final int lowborns;

        public Town(String string){
            String[] args = string.split("_");
            ownerId = Integer.parseInt(args[0]);
            id = Integer.parseInt(args[1]);
            knights = Integer.parseInt(args[2]);
            lowborns = Integer.parseInt(args[3]);
        }

        public int getId() {
            return id;
        }

        public int getOwner() {
            return ownerId;
        }

        public int knightCount() {
            return knights;
        }

        public int lowbornCount() {
            return lowborns;
        }

        public boolean isMine(){
            return ownerId == playerID;
        }

        public boolean isThisTown(){
            return id == thisTownID;
        }

        private int getFreeKnights() {
            return knights - lowborns / 2 - 1;
        }
    }
}

Обобщение: javac Turtle.java

Бег: java Turtle

Java 8, Политик

Действует как настоящий политик. Жаль, что Крэшер все еще убивает его.

import java.util.ArrayList;
import java.util.List;

public class Politician {

    int round;
    int playerID;
    int thisTownID;

    List<Town> towns;
    List<Town> myTowns;
    List<Town> otherTowns;

    Town thisTown;

    public static void main(String[] args){
        if (args.length == 0){
            System.out.println("34 34 34");
            return;
        }
        new Politician().bribe(args[0].split(";"));
    }

    private void bribe(String[] args) {
        round = Integer.parseInt(args[0]);
        playerID = Integer.parseInt(args[1]);
        thisTownID = Integer.parseInt(args[2]);
        towns = new ArrayList<>();
        myTowns = new ArrayList<>();
        otherTowns = new ArrayList<>();


        for (int i = 3; i < args.length; i++){
            towns.add(new Town(args[i]));
        }

        for (Town town : towns){
            if (town.isMine()){
                myTowns.add(town);
                if (town.isThisTown()){
                    thisTown = town;
                }
            } else {
                otherTowns.add(town);
            }
        }

        Town biggestTown = otherTowns.stream().max((a,b) -> a.knights - b.knights).get();

        if (thisTown.getFreeKnights() <= 0){//Out of knights.
            System.out.println("W");//Waiting for taxes so can hire more knights.
        }

        System.out.println("S " + biggestTown.getId() + " " + thisTown.getFreeKnights());
    }


    private class Town {
        private final int ownerId;
        private final int id;
        private final int knights;
        private final int lowborns;

        public Town(String string){
            String[] args = string.split("_");
            ownerId = Integer.parseInt(args[0]);
            id = Integer.parseInt(args[1]);
            knights = Integer.parseInt(args[2]);
            lowborns = Integer.parseInt(args[3]);
        }

        public int getId() {
            return id;
        }

        public int getOwner() {
            return ownerId;
        }

        public int knightCount() {
            return knights;
        }

        public int lowbornCount() {
            return lowborns;
        }

        public boolean isMine(){
            return ownerId == playerID;
        }

        public boolean isThisTown(){
            return id == thisTownID;
        }

        private int getFreeKnights() {
            return knights - lowborns / 2 - 1;
        }

    }
}

Обобщение: javac Politician.java

Бег: java Politician

Ява 8, Масло

Распространяется как можно более равномерно. Душит город, если город достаточно маленький.

import java.util.ArrayList;
import java.util.List;

public class Butter {

    int round;
    int playerID;
    int thisTownID;

    List<Town> towns;
    List<Town> myTowns;
    List<Town> otherTowns;

    Town thisTown;

    public static void main(String[] args){
        if (args.length == 0){
            System.out.println("34 34 34");
            return;
        }
        new Butter().spread(args[0].split(";"));
    }

    private void spread(String[] args) {
        round = Integer.parseInt(args[0]);
        playerID = Integer.parseInt(args[1]);
        thisTownID = Integer.parseInt(args[2]);
        towns = new ArrayList<>();
        myTowns = new ArrayList<>();
        otherTowns = new ArrayList<>();


        for (int i = 3; i < args.length; i++){
            towns.add(new Town(args[i]));
        }

        for (Town town : towns){
            if (town.isMine()){
                myTowns.add(town);
                if (town.isThisTown()){
                    thisTown = town;
                }
            } else {
                otherTowns.add(town);
            }
        }

        Town mySmallestTown = myTowns.stream().min((a, b) -> a.getFreeKnights() - b.getFreeKnights()).get();

        Town smallestEnemyTown = otherTowns.stream().min((a,b) -> a.knights - b.knights).get();

        if ((thisTown.getFreeKnights() - mySmallestTown.getFreeKnights())/2 > 0) {
            System.out.println("S " + mySmallestTown.getId() + " " + (thisTown.getFreeKnights() - mySmallestTown.getFreeKnights()) / 2);
        } else if (thisTown.getFreeKnights() / 2 > smallestEnemyTown.numberOfKnightsToConquer()){
            System.out.println("A " + smallestEnemyTown.getId() + " " + smallestEnemyTown.numberOfKnightsToConquer());
        } else {
            System.out.println("W");
        }
    }


    private class Town {
        private final int ownerId;
        private final int id;
        private final int knights;
        private final int lowborns;

        private Town(String string){
            String[] args = string.split("_");
            ownerId = Integer.parseInt(args[0]);
            id = Integer.parseInt(args[1]);
            knights = Integer.parseInt(args[2]);
            lowborns = Integer.parseInt(args[3]);
        }

        private int getId() {
            return id;
        }

        private int getOwner() {
            return ownerId;
        }

        private int knightCount() {
            return knights;
        }

        private int lowbornCount() {
            return lowborns;
        }

        private boolean isMine(){
            return ownerId == playerID;
        }

        private boolean isThisTown(){
            return id == thisTownID;
        }

        private int getFreeKnights() {
            return knights - lowborns / 2 - 1;
        }

        private int numberOfKnightsToConquer(){
            return ((knights * 6) / 5) + (lowborns / 2) + 1;
        }

    }
}

Обобщение: javac Butter.java

Бег: java Butter

Ява, революционер

Последний, все еще основанный на основных методах TheBestOne. Этот бот пытается спровоцировать восстания в каждом городе, поскольку нейтральный игрок безнаказан, убивая определенное количество рыцарей по сравнению с населением низкого уровня. Это, конечно, не будет атаковать нейтрального игрока.

import java.util.ArrayList;
import java.util.List;


public class Revolutionist {


    int round;
    int playerID;
    int thisTownID;

    List<Town> towns;
    List<Town> myTowns;
    List<Town> otherTowns;

    Town thisTown;

    public static void main(String[] args){
        if (args.length == 0){
            System.out.println("80 80 80");
            return;
        }
        new Revolutionist().inciteRebellion(args[0].split(";"));
    }

    private void inciteRebellion(String[] args) {
        round = Integer.parseInt(args[0]);
        playerID = Integer.parseInt(args[1]);
        thisTownID = Integer.parseInt(args[2]);
        towns = new ArrayList<>();
        myTowns = new ArrayList<>();
        otherTowns = new ArrayList<>();

        for (int i = 3; i < args.length; i++){
            towns.add(new Town(args[i]));
        }

        for (Town town : towns){
            if (town.isMine()){
                myTowns.add(town);
                if (town.isThisTown()){
                    thisTown = town;
                }
            } else {
                otherTowns.add(town);
            }
        }

        Town onEdgeTown = null;
        int edgeCounter = 100;
        for (Town town : otherTowns) {
            if (onEdgeTown == null)
                onEdgeTown = town;

            if (town.getFreeKnights() >= 0 && town.getFreeKnights() <= edgeCounter && town.getOwner() >= 0) {
                onEdgeTown = town;
                edgeCounter = town.getFreeKnights();
            }
        }

        int minimumRequiredKnights = (int) ((onEdgeTown.knightCount() * 1.2 - onEdgeTown.getMinimumKnights() + 2) * 1.2) ;


        if (thisTown.getFreeKnights() > minimumRequiredKnights && onEdgeTown.getOwner() >= 0)
            System.out.println("A " + onEdgeTown.getId() + " " + minimumRequiredKnights);
        else
            System.out.println("W");

    }



    private class Town {
        private final int ownerId;
        private final int id;
        private final int knights;
        private final int lowborns;

        public Town(String string){
            String[] args = string.split("_");
            ownerId = Integer.parseInt(args[0]);
            id = Integer.parseInt(args[1]);
            knights = Integer.parseInt(args[2]);
            lowborns = Integer.parseInt(args[3]);
        }

        public int getId() {
            return id;
        }

        public int getOwner() {
            return ownerId;
        }

        public int knightCount() {
            return knights;
        }

        public int lowbornCount() {
            return lowborns;
        }

        public boolean isMine(){
            return ownerId == playerID;
        }

        public boolean isThisTown(){
            return id == thisTownID;
        }

        private int getFreeKnights() {
            return knights - lowborns / 2 - 1;
        }

        private int getMinimumKnights() {
            return lowborns / 2 + 1;
        }
    }
}

Обобщение: javac Revolutionist.java

Бег: java Revolutionist

JAVA, Sehtimianer

Еще раз спасибо TheBestOne, я тоже скопировал его основные методы; ) Я впервые играю в KingOfTheHill-CodeGame, поэтому надеюсь, что все сделал правильно. Я гордо представляю Sehtimianers: D

import java.io.BufferedReader;
import java.io.BufferedWriter;
import java.io.File;
import java.io.FileReader;
import java.io.FileWriter;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

public class Sehtimianer {

private static final String FILENAME = "Sehtimianer.txt";
private static final int AGGRESSIVE_ROUND_BORDER = 80;

int round;
int playerID;
int thisTownID;

List<Town> towns = new ArrayList<Town>();
List<Town> myTowns = new ArrayList<Town>();
List<Town> playerTowns = new ArrayList<Town>();
List<Town> neutralTowns = new ArrayList<Town>();
Map<Integer, Integer> townToPlayerMapping = new HashMap<Integer, Integer>();
boolean isAllowedToWriteMapping = true;

Town thisTown;

public static void main(String[] args) {
    if (args.length == 0) {
        // new File(FILENAME).delete();
        System.out.println("100 100 100");
        return;
    }
    new Sehtimianer().decide(args[0].split(";"));
}

private void decide(String[] args) {
    // final long start = System.currentTimeMillis();

    round = Integer.parseInt(args[0]);
    playerID = Integer.parseInt(args[1]);
    thisTownID = Integer.parseInt(args[2]);

    for (int i = 3; i < args.length; i++) {
        towns.add(new Town(args[i]));
    }

    for (Town town : towns) {
        if (town.isMine()) {
            myTowns.add(town);
            if (town.isThisTown()) {
                thisTown = town;
            }
        } else {
            if (town.getOwner() == -1) {
                neutralTowns.add(town);
            } else {
                playerTowns.add(town);
            }
        }
    }

    if (new File(FILENAME).exists()) {
        try {
            BufferedReader reader = new BufferedReader(new FileReader(FILENAME));
            String inputLine;
            String[] ids;
            while ((inputLine = reader.readLine()) != null) {
                ids = inputLine.split(";");
                if (ids.length == 1) {
                    Integer writingTownID = Integer.valueOf(ids[0]);
                    boolean townIsLost = true;
                    for (Town town : myTowns) {
                        if (town.getId() == writingTownID) {
                            townIsLost = false;
                            break;
                        }
                    }
                    isAllowedToWriteMapping = townIsLost || thisTownID == writingTownID;
                    continue;
                }
                townToPlayerMapping.put(Integer.valueOf(ids[0]), Integer.valueOf(ids[1]));
            }
            reader.close();

            for (Town town : towns) {
                if (!townToPlayerMapping.get(town.getId()).equals(town.getOwner())) {
                    town.setDefenseBonus(false);
                }
            }
        } catch (IOException e) {
            // Dont worry : )
        }
    }

    if (round == 1) {
        int maxKnights = 0;
        int maxKnightTownID = thisTownID;
        for (Town town : myTowns) {
            if (town == thisTown) {
                continue;
            }
            if (town.knightCount() > maxKnights) {
                maxKnights = town.knightCount();
                maxKnightTownID = town.getId();
            }
        }
        if (maxKnightTownID != thisTownID) {
            System.out.println("S " + maxKnightTownID + " " + thisTown.knightCount());
        }
    } else if (round % 3 == 2) {
        int myKnightIncome = 0;
        for (Town town : myTowns) {
            myKnightIncome += town.lowbornCount() / 2;
        }

        Map<Integer, Integer> playerKnightIncomeMap = new HashMap<Integer, Integer>();
        Map<Integer, Integer> playerTownCountMap = new HashMap<Integer, Integer>();
        List<Integer> nextRoundKnights = new ArrayList<Integer>();
        Map<Integer, Town> nextRoundKnightsToTownMapping = new HashMap<Integer, Town>();

        for (Town town : playerTowns) {
            fillDescisionMaps(town, nextRoundKnights, nextRoundKnightsToTownMapping, playerKnightIncomeMap, playerTownCountMap);
        }
        for (Town town : neutralTowns) {
            fillDescisionMaps(town, nextRoundKnights, nextRoundKnightsToTownMapping, playerKnightIncomeMap, playerTownCountMap);
        }

        Integer maxEnemyKnightIncome = 0;
        for (Integer knightIncome : playerKnightIncomeMap.values()) {
            if (knightIncome > maxEnemyKnightIncome) {
                maxEnemyKnightIncome = knightIncome;
            }
        }
        Integer maxEnemyTownCount = 0;
        for (Integer townCount : playerTownCountMap.values()) {
            if (townCount > maxEnemyTownCount) {
                maxEnemyTownCount = townCount;
            }
        }

        if (maxEnemyKnightIncome > myKnightIncome || (round > AGGRESSIVE_ROUND_BORDER && maxEnemyTownCount >= myTowns.size())) {
            Collections.sort(nextRoundKnights);
            int possibleHighest = 0;
            Town enemyTown;
            int enemyTownUpkeep;
            for (int i = nextRoundKnights.size() - 1; i >= 0; i--) {
                possibleHighest = nextRoundKnights.get(i);
                enemyTown = nextRoundKnightsToTownMapping.get(possibleHighest);
                enemyTownUpkeep = enemyTown.lowbornCount() / 2;
                if (enemyTownUpkeep > (possibleHighest - enemyTownUpkeep)) { // Substract the calculated Income for the next Turn
                    // Town will be lost because of revolution after captured -> Bad target
                    possibleHighest = 0;
                    continue;
                }
                if (round > AGGRESSIVE_ROUND_BORDER || enemyTown.lowbornCount() > 0) {
                    break;
                }
            }
            if (possibleHighest > 0) {
                Town attackedTown = nextRoundKnightsToTownMapping.get(possibleHighest);
                System.out.println("A " + attackedTown.getId() + " " + calcHowMuchKnightsShouldAttack(attackedTown, possibleHighest));
            }
        }
    }

    if (isAllowedToWriteMapping) {
        try {
            BufferedWriter writer = new BufferedWriter(new FileWriter(FILENAME));
            writer.write(thisTownID + "\n");
            for (Town town : towns) {
                writer.write(town.getId() + ";" + town.getOwner() + "\n");
            }
            writer.close();
        } catch (IOException e) {
            // Dont worry : )
        }
    }

    System.out.println("W");

    // long duration = System.currentTimeMillis() - start;
    // if (duration > 1000) {
    // throw new RuntimeException();
    // }
}

private void fillDescisionMaps(Town town, List<Integer> nextRoundKnights, Map<Integer, Town> nextRoundKnightsToTownMapping, Map<Integer, Integer> playerKnightIncomeMap,
        Map<Integer, Integer> playerTownCountMap) {
    int calculatedKnights = calcKnightsInNextRound(town);
    nextRoundKnights.add(calculatedKnights);
    nextRoundKnightsToTownMapping.put(calculatedKnights, town);

    Integer enemyKnightIncome = playerKnightIncomeMap.get(town.getOwner());
    if (enemyKnightIncome == null) {
        enemyKnightIncome = town.lowbornCount() / 2;
    } else {
        enemyKnightIncome = enemyKnightIncome + (town.lowbornCount() / 2);
    }
    playerKnightIncomeMap.put(town.getOwner(), enemyKnightIncome);

    Integer enemyTownCount = playerTownCountMap.get(town.getOwner());
    if (enemyTownCount == null) {
        enemyTownCount = Integer.valueOf(1);
    } else {
        enemyTownCount = enemyTownCount + 1;
    }
    playerTownCountMap.put(town.getOwner(), enemyTownCount);
}

private int calcKnightsInNextRound(Town enemyTown) {
    int knights = (int) ((double) enemyTown.knightCount() * (enemyTown.isDefenseBonus() ? 1.2 : 1));
    knights = thisTown.getFreeKnights() - knights;
    if (knights > 0) {
        knights += enemyTown.lowbornCount() / 2;
    } else {
        knights = 0;
    }
    return knights;
}

private int calcHowMuchKnightsShouldAttack(Town enemyTown, int possibleHighest) {
    if (round < AGGRESSIVE_ROUND_BORDER && thisTown.lowbornCount() == 0) {
        return thisTown.knightCount();
    }

    int spareKnights = possibleHighest - enemyTown.lowbornCount(); // Correct -> div 2 and mul 2
    int minShouldSend = thisTown.getFreeKnights() - (spareKnights / 2);

    return Math.max(minShouldSend, thisTown.knightCount() / 2);
}

private class Town {
    private final int ownerId;
    private final int id;
    private final int knights;
    private final int lowborns;
    private boolean defenseBonus;

    public Town(String string) {
        String[] args = string.split("_");
        ownerId = Integer.parseInt(args[0]);
        id = Integer.parseInt(args[1]);
        knights = Integer.parseInt(args[2]);
        lowborns = Integer.parseInt(args[3]);
        defenseBonus = true;
    }

    public boolean isDefenseBonus() {
        return defenseBonus;
    }

    public void setDefenseBonus(boolean defenseBonus) {
        this.defenseBonus = defenseBonus;
    }

    public int getId() {
        return id;
    }

    public int getOwner() {
        return ownerId;
    }

    public int knightCount() {
        return knights;
    }

    public int lowbornCount() {
        return lowborns;
    }

    public boolean isMine() {
        return ownerId == playerID;
    }

    public boolean isThisTown() {
        return id == thisTownID;
    }

    private int getFreeKnights() {
        return knights - lowborns / 2 - 1;
    }
}
}

Сехтимианцы стараются превосходить всю игру и заканчивают ее в конце. Я надеюсь, что мой бот не будет слишком плохо :)

Ява, Исход

Еще раз, на основе основных методов TheBestOne. Этот бот мигрирует из города в город, как только достигнет определенного уровня рыцарского населения, без разбора своего владельца, и повторяет этот процесс, пока не превратит весь мир.

import java.util.ArrayList;
import java.util.List;


public class Exodus {


    int round;
    int playerID;
    int thisTownID;

    List<Town> towns;
    List<Town> myTowns;
    List<Town> otherTowns;

    Town thisTown;

    public static void main(String[] args){
        if (args.length == 0){
            System.out.println("100 100 100");
            return;
        }
        new Exodus().migrate(args[0].split(";"));
    }

    private void migrate(String[] args) {
        round = Integer.parseInt(args[0]);
        playerID = Integer.parseInt(args[1]);
        thisTownID = Integer.parseInt(args[2]);
        towns = new ArrayList<>();
        myTowns = new ArrayList<>();
        otherTowns = new ArrayList<>();

        for (int i = 3; i < args.length; i++){
            towns.add(new Town(args[i]));
        }

        for (Town town : towns){
            if (town.isMine()){
                myTowns.add(town);
                if (town.isThisTown()){
                    thisTown = town;
                }
            } else {
                otherTowns.add(town);
            }
        }

       if (thisTown.knightCount() >= 100) {
           int nextTownId = thisTown.getId() + 1 > towns.size() - 1 ? 0 : thisTown.getId() + 1;
           Town nextTown = towns.get(nextTownId);
          if (nextTown.isMine()){
              System.out.println("S " + nextTown.getId() + " " + thisTown.knightCount()) ;
          } else {
              System.out.println("A " + nextTown.getId() + " " + thisTown.knightCount()) ;
          }
       } else {
           System.out.println("W") ;
       }
    }



    private class Town {
        private final int ownerId;
        private final int id;
        private final int knights;
        private final int lowborns;

        public Town(String string){
            String[] args = string.split("_");
            ownerId = Integer.parseInt(args[0]);
            id = Integer.parseInt(args[1]);
            knights = Integer.parseInt(args[2]);
            lowborns = Integer.parseInt(args[3]);
        }

        public int getId() {
            return id;
        }

        public int getOwner() {
            return ownerId;
        }

        public int knightCount() {
            return knights;
        }

        public int lowbornCount() {
            return lowborns;
        }

        public boolean isMine(){
            return ownerId == playerID;
        }

        public boolean isThisTown(){
            return id == thisTownID;
        }

        private int getFreeKnights() {
            return knights - lowborns / 2 - 1;
        }
    }
}

Обобщение: javac Exodus.java

Бег: java Exodus

Python 2, Демократия

Этот король не король. Это что-то современное. Это король людей . Это демократия. Он медленный, неэффективный, и когда он что-то делает, он делает это неправильно.

import sys
from math import sqrt, ceil

class Town:
    def __init__(self, owner, ID, military, civilian):
        self.owner=owner
        self.id=ID
        self.isEnemy=(self.owner!=PlayerId)
        self.isCurrent=(self.id!=TownId)
        self.mil=military
        self.civ=civilian
        self.freeK=self.mil-self.civ/2
    def canBeat(self, other):
        otherPower    = int(ceil(other.mil*1.2))
        otherMinPower = int(ceil(other.freeK*1.2))
        selfPower     = self.freeK
        if selfPower<otherMinPower:
            return 0
        elif selfPower<otherPower or (selfPower-otherPower)*2-1<other.civ:
            return 1
        else:
            return 2
    def canMove(self, other):
        otherPower    = int(ceil(other.mil*1.2))
        otherMinPower = int(ceil(other.freeK*1.2))
        if otherPower<self.mil:
            return 2
        elif otherMinPower<=self.mil:
            return 1
        else:
            return 0

    def canDefend(self, other):
        return self.freeK>other.mil

def attack_weak():

    for town in EnemyTowns:
        if curr.canMove(town)==2:
            print "A", town.id, curr.mil
            exit()
    for town in EnemyTowns:
        if curr.canMove(town)==1:
            print "A", town.id, curr.mil
            exit()

    target=EnemyTowns[0]
    for et in EnemyTowns:
        if et.mil<target.mil and et.id!=-1:
            target=et
    print "A", target.id, curr.mil-1
    exit()


if len(sys.argv) < 2:
    print 96, 96, 96
else:
    Round, PlayerId, TownId, Towns = sys.argv[1].split(";", 3)
    Round=int(Round)
    PlayerId=int(PlayerId)
    TownId=int(TownId)
    Towns=[[int(i) for i in town.split("_")] for town in Towns.split(";")]
    Towns=[Town(i[0], i[1], i[2], i[3]) for i in Towns]
    MyTowns=[t for t in Towns if t.isEnemy==False]
    EnemyTowns=[t for t in Towns if t.isEnemy]
    GameStateEnd = [t for t in EnemyTowns if t.id!=-1]==[]
    curr=[town for town in MyTowns if town.isCurrent][0]

    support=[town for town in MyTowns if town.freeK<1]
    if support!=[]:
        for town in support:
            if town.id==curr.id:
                missing=town.freeK-int(ceil(town.civ/2))
                if town.civ<5:
                    attack_weak()
                elif town.freeK<-10:
                    attack_weak()
                else:
                    print "W"
                    exit()
        for town in support:
            if abs(town.freeK-2)<curr.freeK-2:
                print "S", town.id, abs(town.freeK-2)
                exit()
            else:
                if curr.freeK>10:
                    print "S", town.id, int(abs(town.freeK-2)*0.2)
                    exit()
    if GameStateEnd:
        attack_end()
    else:
        selection=EnemyTowns[:]
        selection.sort(key=(lambda x: (x.mil-x.civ) if x.civ>3 else x.mil/4))
        for s in selection:
            if curr.canBeat(s)==2 and s.civ>s.mil/2:
                NF=(int(ceil(s.mil*1.2))+s.civ/2+1)
                if curr.mil>NF:
                    print "A", s.id, NF+(curr.mil-NF)/3
                    exit()
    if curr.freeK>10:
        MyTowns.sort(key=lambda x: x.mil)
        print "S", MyTowns[-1].id, (curr.freeK-5)/5*3
        exit()
    print "W"
    exit()

Беги python2 democracy.py. Обратите внимание, что демократия требует Python 2 .

Редактировать: Исправлена ​​ошибка печати объекта города

C ++ 11, CalculatedFail

после того, как я попробовал кое-что с небольшой Java, которую я знаю и не смог достичь того, чего хотел, я решил переписать это на C ++ и добавить обработку файлов. проблема была в том, что мой C ++ довольно ржавый и ненамного лучше, поэтому некоторые части разбиты вместе, и это только первое решение в google, так что не очень качественный код ...

Тем не менее, я смог получить по крайней мере рабочий результат, который не слишком много, он выигрывает, по крайней мере, время от времени, но я не могу проверить это отлично, потому что я не могу запустить все другие представления на этом компьютере. Я, вероятно, перепишу таргетинг в целом и добавлю его в качестве другого ответа позже сегодня или завтра.

#include <iostream>
#include <string>
#include <vector>
#include <sstream>
#include <cmath>
#include <ratio>
#include <fstream>
#include <algorithm>

using namespace std;


class Town {
public:
    Town(int owner, int townId, int knights, int population, int roundToDefBonus);
    int getOwner();
    int getId();
    int getKnights();
    int getPopulation();

    int getFreeKnights();
    int neededConquer();
    int getKnightsStable();
    int getRoundToDef();

    bool operator< (const Town &other) const  {
        return townId < other.townId;
    }
private:
    int owner;
    int townId;
    int knights;
    int population;
    int roundToDefBonus;
    double defBonus;
};

Town::Town(int inOwner, int inTownId, int inKnights, int inPopulation, int inRoundToDefBonus) {
    owner = inOwner;
    townId = inTownId;
    knights = inKnights;
    population = inPopulation;
    roundToDefBonus = inRoundToDefBonus;
    if(roundToDefBonus > 0) {
        defBonus = 1;
    }
    else{
        defBonus = 1.2;
    }
}

int Town::getOwner() {
    return owner;
}
int Town::getId() {
    return townId;
}
int Town::getKnights() {
    return knights;
}
int Town::getPopulation() {
    return population;
}
int Town::getFreeKnights() {
    return knights - population / 2;
}
int Town::neededConquer() {
    return max(static_cast<int>(ceil(knights * defBonus + population / 2)), 1);
}
int Town::getKnightsStable() {
    return population / 2;
}
int Town::getRoundToDef() {
    return roundToDefBonus;
}


int gameRound;
int myId;
int thisTownId;
Town* thisTown;

vector <Town> myTowns;
vector <Town> enemyTowns;

vector <Town> lastTime;

string turn();
Town* bestTarget(int knights);
Town* bestSafe(int knights);
Town* biggestTarget(int knights);
Town* biggestSafe(int knights);


string out(string, int, int);
string attack(Town*);
string safe(Town*);

bool sortTowns(const Town & t1, const Town & t2);

vector <string> stringSplit(string input, string delimeter);

int main(int argc, char* argv[]) {
    if(argc < 2){
        cout << "100 100 100";
        ofstream myFile;
        myFile.open("CalculatedFail.txt");
        myFile << "0\n";
        myFile.close();
    }
    else{
        if(argc == 2){

            string input = argv[1];
            vector <string> params = stringSplit(input, ";");

            gameRound = atoi(params.at(0).c_str());
            myId = atoi((params.at(1)).c_str());
            thisTownId = atoi(params.at(2).c_str());

            ifstream myfile("CalculatedFail.txt");
            if(myfile.is_open()){
                string line;

                getline(myfile, line);
                bool newRound = false;
                if(atoi(line.c_str()) > gameRound) {
                    newRound = true;
                }

                vector <string> oldVals;
                if(!newRound) {
                    while (getline(myfile, line)) {
                        oldVals = stringSplit(line, "_");

                        int playerId = atoi(oldVals.at(0).c_str());
                        int townId = atoi(oldVals.at(1).c_str());
                        int knights = atoi(oldVals.at(2).c_str());
                        int population = atoi(oldVals.at(3).c_str());
                        int roundToDefBonus = atoi(oldVals.at(4).c_str());

                        lastTime.push_back(Town(playerId, townId, knights, population, roundToDefBonus));
                        oldVals.clear();
                    }
                }
                else {
                    while (getline(myfile, line)) {
                        oldVals = stringSplit(line, "_");

                        int playerId = atoi(oldVals.at(0).c_str());
                        int townId = atoi(oldVals.at(1).c_str());
                        int knights = atoi(oldVals.at(2).c_str());
                        int population = atoi(oldVals.at(3).c_str());
                        int roundToDefBonus = atoi(oldVals.at(4).c_str());
                        if(roundToDefBonus) {   //if round def bonus > 0, decrement because new round
                            roundToDefBonus --;
                        }

                        lastTime.push_back(Town(playerId, townId, knights, population, roundToDefBonus));
                        oldVals.clear();
                    }

                }
                std::sort(lastTime.begin(), lastTime.end());
            }

            if(lastTime.size() > 0) {
                vector <string> values;
                for(int i = 3; i < params.size(); i++) {

                    values = stringSplit(params.at(i), "_");

                    int playerId = atoi(values.at(0).c_str());
                    int townId = atoi(values.at(1).c_str());
                    int knights = atoi(values.at(2).c_str());
                    int population = atoi(values.at(3).c_str());

                    int roundsToDef = lastTime.at(townId).getRoundToDef();
                    if(playerId != lastTime.at(townId).getOwner()) {
                        roundsToDef = 2;
                    }
                    if(playerId == myId){
                        if(thisTownId != townId)
                            myTowns.push_back(Town(playerId, townId, knights, population, roundsToDef));
                        else{
                            thisTown = new Town(playerId, townId, knights, population, roundsToDef);
                        }
                    }
                    else{
                        enemyTowns.push_back(Town(playerId, townId, knights, population, roundsToDef));
                    }
                    values.clear();
                }
            }
            else {
                vector <string> values;
                for(int i = 3; i < params.size(); i++) {

                    values = stringSplit(params.at(i), "_");

                    int playerId = atoi(values.at(0).c_str());
                    int townId = atoi(values.at(1).c_str());
                    int knights = atoi(values.at(2).c_str());
                    int population = atoi(values.at(3).c_str());

                    if(playerId == myId){
                        if(thisTownId != townId)
                            myTowns.push_back(Town(playerId, townId, knights, population, 0));
                        else{
                            thisTown = new Town(playerId, townId, knights, population, 0);
                        }
                    }
                    else{
                        enemyTowns.push_back(Town(playerId, townId, knights, population, 0));
                    }
                    values.clear();
                }
            }

            string tmp = turn();
            cout << tmp;

            ofstream writeFile("CalculatedFail.txt");
            if(writeFile.is_open()) {
                writeFile << gameRound <<"\n";

                writeFile << thisTown->getOwner() <<"_"<<thisTown->getId()<<"_"<<thisTown->getKnights()<<"_"<< thisTown->getPopulation()<<"_"<<thisTown->getRoundToDef()<<"\n";

                for(vector<Town>::size_type i = 0; i != myTowns.size(); i++) {
                    writeFile << myTowns[i].getOwner() <<"_"<<myTowns[i].getId()<<"_"<<myTowns[i].getKnights()<<"_"<< myTowns[i].getPopulation()<<"_"<<myTowns[i].getRoundToDef()<<"\n";
                }
                for(vector<Town>::size_type i = 0; i != enemyTowns.size(); i++) {
                    writeFile << enemyTowns[i].getOwner() <<"_"<<enemyTowns[i].getId()<<"_"<<enemyTowns[i].getKnights()<<"_"<< enemyTowns[i].getPopulation()<<"_"<<enemyTowns[i].getRoundToDef()<<"\n";
                }
            }

        }
        else{
            cout<<"error, wrong parameter";
        }

    }

    delete thisTown;

    return 0;
}




string turn() {
    Town* safeTarget;
    Town* attackTarget;
    if(thisTown->getFreeKnights() < 0) {    //evacuate
        safeTarget = biggestSafe(thisTown->getKnights());
        attackTarget = biggestTarget(thisTown->getKnights());

        if(safeTarget != nullptr && attackTarget != nullptr){
            if(safeTarget->getPopulation() > attackTarget->getPopulation()) {
                return out("S", safeTarget->getId(), thisTown->getKnights());
            }
            else {
                return out("A", attackTarget->getId(), thisTown->getKnights());
            }
        }
        if(safeTarget){
            return out("S", safeTarget->getId(), thisTown->getKnights());
        }
        if(attackTarget){
            return out("A", attackTarget->getId(), thisTown->getKnights());
        }
        Town* target = &myTowns.at(0);
        for(vector<Town>::size_type i = 1; i != myTowns.size(); i++) {
            if(target->getPopulation() < myTowns[i].getPopulation())
                target = &myTowns[i];
        }
        return out("S", target->getId(), thisTown->getKnights());

    }

    safeTarget = biggestSafe(thisTown->getFreeKnights());
    attackTarget = bestTarget(thisTown->getFreeKnights());


    if(safeTarget != nullptr && attackTarget != nullptr){
        if(safeTarget->getPopulation() > attackTarget->getPopulation()) {
            return safe(safeTarget);
        }
        else {
            return attack(attackTarget);
        }
    }
    if(safeTarget){
        return safe(safeTarget);
    }
    if(attackTarget){
        return attack(attackTarget);
    }

    return "W";
}

Town* bestTarget(int knights) {
    Town* target = nullptr;
    double ratio = -1;
    for(vector<Town>::size_type i = 0; i != enemyTowns.size(); i++) {
        if(enemyTowns[i].neededConquer() < knights) {
            if(enemyTowns[i].getPopulation() / enemyTowns[i].neededConquer() > ratio) {
                target = &enemyTowns[i];
                ratio = enemyTowns[i].getPopulation() / enemyTowns[i].neededConquer();
            }
        }
    }
    return target;
}

Town* biggestTarget(int knights) {
    Town* target = nullptr;
    int population = -1;
    for(vector<Town>::size_type i = 0; i != enemyTowns.size(); i++) {
        if(enemyTowns[i].neededConquer() < knights) {
            if(enemyTowns[i].getPopulation() > population) {
                target = &enemyTowns[i];
                population = target->getPopulation();
            }
        }
    }
    return target;
}

Town* biggestSafe(int knights) {
    Town* target = nullptr;
    int population = -1;
    for(vector<Town>::size_type i = 0; i != myTowns.size(); i++) {
        if(myTowns[i].getFreeKnights() < 0 && myTowns[i].getFreeKnights() + knights >= 0){
            if(myTowns[i].getPopulation() > population) {
                target = &myTowns[i];
                population = target->getPopulation();
            }
        }
    }
    return target;
}

string attack(Town* target){
    int knights;
    if(thisTown->getPopulation() > target->getPopulation()) {
        knights = target->neededConquer();
    }
    else{
        knights = thisTown->getFreeKnights();
    }
    return out("A", target->getId(), knights);
}
string safe(Town* target){
    int knights;
    if(thisTown->getPopulation() > target->getPopulation()) {
        knights = target->getFreeKnights() * -1;
    }
    else{
        knights = thisTown->getFreeKnights();
    }
    return out("S", target->getId(), knights);
}
string out(string order, int targedId, int knights) {
    stringstream tmp;
    tmp << order << " " << targedId << " " << knights;
    return tmp.str();
}

vector <string> stringSplit(string input, string delimeter) {
    stringstream tmp(input);
    vector <string> splitted;
    string pushThis;
    while (getline(tmp, pushThis, delimeter.at(0))){
        splitted.push_back(pushThis);
    }

    return splitted;
}

компилировать с: g++ -std=c++11 CalculatedFail.cpp -o CalculatedFail.exe

Google говорит, что в Linux это CalculatedFail.out вместо .exe, но я не могу это проверить.

и беги CalculatedFail.exe

так как он использует файл для проверки бонуса def, одновременный запуск игры несколько раз может привести к ошибкам ...

надеюсь, что это работает правильно без особых проблем

Ява, Иллюминаты

Я прочитал это и знал, что никогда не смогу придумать жизнеспособную стратегию, поэтому я решил сыграть с ужасно недопредставленными людьми-ящерами, которые могут или не могут управлять нами. Вместо того, чтобы сражаться с другими ботами, этот принуждает их к сотрудничеству, только чтобы бросить их в самом конце. Этот бот, на самом деле, не оставляет никаких постоянных повреждений.

import java.io.File;
import java.io.FileInputStream;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.PrintWriter;
import java.util.ArrayList;
import java.util.List;

import javax.tools.JavaCompiler;
import javax.tools.StandardJavaFileManager;
import javax.tools.ToolProvider;

public class Illuminati
{
    private static final String template = 
            "import java.io.File;import java.util.Scanner;import java.io.IOException;\n" +
            "public class <<NAME>> \n" +
            "{public static void main(String[] args) throws IOException {if(args.length == 0) {\n" +
            "System.out.println(\"35 35 35\");} else { File ill_data = new File(\"Illuminati.txt\");\n" + 
            "String order = new String();Scanner sc = new Scanner(ill_data);\n" +
            "while(sc.hasNextLine()){order = sc.nextLine();} sc.close(); int city = Integer.parseInt(order);" +
            "Illuminati.TurnDescriptor desc = new Illuminati.TurnDescriptor(args[0]);" +
            "int amt = desc.thistown.getFreeKnights(); System.out.println(\"S \" + city + \" \" + amt); }}}";

    private static final File datafile = new File("Illuminati.txt");

    private static final JavaCompiler compiler = ToolProvider.getSystemJavaCompiler();

    public static void main(String[] args) throws IOException
    {
        if(args.length == 0)
        {
            if(compiler != null)
            {
                if(!datafile.exists())
                {
                    datafile.createNewFile();
                }

                File parentdir = datafile.getAbsoluteFile().getParentFile();
                List<File> torecompile = new ArrayList<File>();

                for(File f : parentdir.listFiles())
                {
                    if(!f.isDirectory())
                    {
                        if(f.getName().endsWith(".class") && !f.getName().contains("$") && !f.getName().equals("Illuminati.class"))
                        {
                            torecompile.add(f);
                        }
                    }
                }

                for(File f : torecompile)
                {
                    File newfile = new File(f.getName() + ".temp");
                    FileInputStream fis = new FileInputStream(f);
                    FileOutputStream fos = new FileOutputStream(newfile);
                    int val;
                    while((val = fis.read()) != -1)
                    {
                        fos.write(val);
                    }
                    fis.close();
                    fos.close();
                }

                List<File> tocompile = new ArrayList<File>();

                for(File f : torecompile)
                {
                    String classname = f.getName().substring(0, f.getName().length() - 6);
                    String code = template.replace("<<NAME>>", classname);
                    File temp = new File(classname + ".java");
                    FileOutputStream fos = new FileOutputStream(temp);
                    fos.write(code.getBytes());
                    fos.close();
                    tocompile.add(temp);
                }

                StandardJavaFileManager manager = compiler.getStandardFileManager(null, null, null);
                compiler.getTask(null, manager, null, null, null, manager.getJavaFileObjectsFromFiles(tocompile)).call();

                tocompile.forEach(file -> file.delete());

                System.out.println("34 34 34");
            }
            else
            {
                System.out.println("85 85 85");
            }
        }
        else
        {
            if(datafile.exists())
            {
                TurnDescriptor descriptor = new TurnDescriptor(args[0]);
                int knights = descriptor.thistown.getFreeKnights();
                int stockpile = descriptor.towns.stream()
                .filter(town -> town.owner == descriptor.thistown.owner)
                .mapToInt(town -> town.id)
                .max().getAsInt();
                PrintWriter pw = new PrintWriter(datafile);
                pw.println("" + stockpile);
                pw.close();
                if(descriptor.thistown.id != stockpile)
                {
                    System.out.println("S " + stockpile + " " + knights);
                }
                if(descriptor.round > 80 && (descriptor.round & 1) == 1) //If the round is greater than 80 and is odd
                {
                    if(descriptor.thistown.id == stockpile)
                    {
                        Town target = descriptor.towns.stream()
                        .filter(town -> town.owner != descriptor.playerid)
                        .findAny().get();

                        System.out.println("A " + target.id + " " + descriptor.thistown.getFreeKnights());
                    }
                }
                if(descriptor.round == 99) //Resume normal AI practices
                {
                    resetClassesFromCache();
                }
            }
            else //Man, now we have to actually do stuff
            {
                System.out.println("W"); //Just kidding! Suicide!
            }
        }
    }

    private static void resetClassesFromCache() throws IOException
    {
        File parentdir = datafile.getAbsoluteFile().getParentFile();

        for(File f : parentdir.listFiles())
        {
            if(!f.isDirectory())
            {
                if(f.getName().endsWith(".class.temp") && !f.getName().contains("$"))
                {
                    FileInputStream fis = new FileInputStream(f);
                    File out = new File(f.getName().substring(0, f.getName().length() - 5));
                    FileOutputStream fos = new FileOutputStream(out, false);

                    int val;
                    while((val = fis.read()) != -1)
                    {
                        fos.write(val);
                    }

                    fis.close();
                    fos.close();
                    f.delete();
                }
            }
        }
    }

    public static class Town
    {
        public final int owner;
        public final int id;
        public final int knights;
        public final int lowborns;

        public Town(String chunk)
        {
            String[] vals = chunk.split("_");
            owner = Integer.parseInt(vals[0]);
            id = Integer.parseInt(vals[1]);
            knights = Integer.parseInt(vals[2]);
            lowborns = Integer.parseInt(vals[3]);
        }

        public int getFreeKnights()
        {
            return knights - (lowborns/2) - 1;
        }
    }

    public static class TurnDescriptor
    {
        public final List<Town> towns;
        public final int round;
        public final int playerid;
        public final Town thistown;

        public TurnDescriptor(String s)
        {
            String[] info = s.split(";");
            round = Integer.parseInt(info[0]);
            playerid = Integer.parseInt(info[1]);
            final int townid = Integer.parseInt(info[2]);

            towns = new ArrayList<Town>();
            for(int i = 3; i < info.length; i++)
            {
                Town t = new Town(info[i]);
                towns.add(t);
            }

            thistown = towns.stream()
            .filter(town -> {return town.id == townid;})
            .findFirst().get();
        }
    }
}

Ява, СуперПроизводитель

В моей части мира уже поздно, поэтому у меня нет достаточно времени для уточнения моего представления. Я планирую уточнить, как это будет работать позже.

Производительность бота, кажется, сильно зависит от стартового порядка, в котором он иногда выигрывает ...

У меня были некоторые идеи, чтобы помочь увеличить выигрышные раунды ... но рэд вне времени: P

package moogiesoft;

import java.io.File;
import java.io.FileInputStream;
import java.io.FileOutputStream;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.io.Serializable;
import java.util.ArrayList;
import java.util.Comparator;
import java.util.HashMap;
import java.util.IntSummaryStatistics;
import java.util.List;
import java.util.Map;
import java.util.stream.Collectors;



public class SuperProducer implements Serializable
{
    private static final int MAX_POSSIBLE_LOWBORNS_IN_TOWN = 50;
    /**
     * 
     */
    private static final long serialVersionUID = 8652887937499233654L;
    public final String FILE = this.getClass().getSimpleName()+".txt";
    int round;
    int playerID;
    int thisTownID;

    List<Town> towns;
    List<Town> myTowns;
    List<Town> otherTowns;

    Map<Integer, Conquest> townOwnerShipMap = new HashMap<Integer, Conquest>();

    Town thisTown;
    private int targetOpponent = -1; // the id of the opponent that out towns will endevour to direct their attacks 
    private int maxOpponentTownSize; // the number of knights of the opponent town with the most knights
    private int avgOpponentTownSize; // the average number of knights in an opponent town
    private int midAvgMaxOpponentTownSize; // value 1/2 between average and max knights in an opponent town

    public static void main(String[] args){
        if (args.length == 0){
            new SuperProducer().sendStartingKnights();
        }
        else
        {
            new SuperProducer().letsDoIt(args[0].split(";"));
        }
    }

    private void sendStartingKnights()
    {
        // delete any stale state information
        File file = new File(FILE);
        file.delete();

        System.out.println("100 100 0");
    }

    private void letsDoIt(String[] args)
    {
        round = Integer.parseInt(args[0]);
        playerID = Integer.parseInt(args[1]);
        thisTownID = Integer.parseInt(args[2]);
        towns = new ArrayList<>();
        myTowns = new ArrayList<>();
        otherTowns = new ArrayList<>();

        for (int i = 3; i < args.length; i++)
        {
            towns.add(new Town(args[i]));
        }

        // load in stored state information
        File file = new File(FILE);
        if (file.exists())
        {
            try
            {
                ObjectInputStream ois = new ObjectInputStream(new FileInputStream(file));
                townOwnerShipMap = (Map<Integer, Conquest>) ois.readObject();
                targetOpponent  = ois.readInt();
                ois.close();
            }
            catch (Exception e)
            {
                e.printStackTrace();
            }
        }

        for (Town town : towns)
        {

            // update town conquest map
            Conquest conquest = townOwnerShipMap.remove(town.getId());
            if (conquest==null)
            {
                conquest = new Conquest(town.ownerId, -1);
                townOwnerShipMap.put(town.getId(),conquest);
            }
            else if (town.getOwner()!=conquest.getOwner())
            {
                conquest.setOwner(town.ownerId);
                conquest.setConquestRound(round-1);
            }
            town.setDefenceBonus(round-conquest.getConquestRound()>2);

            if (town.isMine()){
                myTowns.add(town);
                if (town.isThisTown()){
                    thisTown = town;
                }
            } else {
                otherTowns.add(town);
            }
        }

        String response = "W";

        // this town has some knights to potentially command...
        if (thisTown.getKnightCount()>0)
        {
            // first round... consolidate into 1 super town
            if (round==1)
            {
                int thisTownIndex=myTowns.indexOf(thisTown);
                switch (thisTownIndex)
                {
                    case 1:
                    case 0:
                        // if we are the first town then move all knights into second town
                        if (myTowns.size()>1 && thisTown.getKnightCount()<200)
                        {
                            response = "S " + myTowns.get(thisTownIndex+1).getId() + " " + thisTown.getKnightCount();
                            break;
                        }
                    default:
                        // the third town does nothing!
                }
            }
            else 
            {
                // second round... go find some good starting towns to conquer
                if (round==2)
                {
                    // this town is a town able to attack
                    if (thisTown.getKnightCount()>100)
                    {
                        // If by some miracle we still own the town with no knights then re-inforce it.
                        Town superTown = myTowns.stream().filter(a->a.getKnightCount()==200).findFirst().get();
                        if (superTown!=null && superTown.getId()!=thisTown.getId())
                        {
                            response = "S " + superTown.getId() + " " + thisTown.getKnightCount();
                        }
                        else
                        {
                            // find the next most productive Town...
                            Town townToAttack = otherTowns.get(0);
                            for (Town town : otherTowns)
                            {
                                if (town.getLowbornCount()>townToAttack.getLowbornCount())
                                {
                                    townToAttack=town;
                                    if (townToAttack.getOwner()!=playerID)
                                    {
                                        targetOpponent=townToAttack.getOwner();
                                    }
                                }
                            }

                            // the town to attack is most likely the own we lost due to having no knights to begin with...
                            response = "A " + townToAttack.getId() + " " + thisTown.getKnightCount();
                        }
                    }
                    // else this is a conquered town so lets not do anything!
                }
                else if (round>97)
                {
                    int attackForce = thisTown.getFreeKnights()/4;
                    if (thisTown.getFreeKnights()>attackForce && attackForce>0)
                    {

                        boolean goFlag=false;
                        Town townToAttack = null;
                        for (Town town : towns)
                        {
                            // 
                            if (town==thisTown) goFlag=true;
                            else if (goFlag && town.getOwner()!=thisTown.getOwner())
                            {
                                if (town.getLowbornCount()==0)
                                {
                                    townToAttack=town;
                                    break;
                                }
                            }
                        }

                        if (townToAttack==null)
                        {
                            for (Town town : otherTowns)
                            {
                                if (town.getLowbornCount()==0)
                                {
                                    townToAttack=town;
                                    break;
                                }
                            }
                        }

                        if (round > 98 && townToAttack==null)
                        {
                            for (Town town : otherTowns)
                            {
                                attackForce = thisTown.getKnightCount()-town.getKnightCount()-town.getMinimumKnights()-1-thisTown.getMinimumKnights()-1;
                                if (attackForce>0)
                                {
                                    townToAttack=town;
                                    break;
                                }
                            }
                        }

                        if (townToAttack!=null)
                        {
                            response = "A " + townToAttack.getId() + " " + attackForce;
                        }
                        else
                        {
                            int thisTownIndex = myTowns.indexOf(thisTown);
                            int supportSize = Math.min(thisTown.getKnightCount()/4, thisTown.getFreeKnights());

                            if (supportSize>thisTown.getMinimumKnights() && thisTownIndex<myTowns.size()-1)
                            {
                                Town townToSupport = myTowns.get(thisTownIndex+1);
                                response = "S " + townToSupport.getId() + " " + (thisTown.getKnightCount()-thisTown.getKnightCount()/4);
                            }
                        }
                    }

                }

                // we are on non-beginning non-ending round...
                else
                {
                    // calculate statistics
                    IntSummaryStatistics statistics = otherTowns.stream().collect(Collectors.summarizingInt(Town::getKnightCount));
                    maxOpponentTownSize = statistics.getMax();
                    avgOpponentTownSize = (int) statistics.getAverage();
                    midAvgMaxOpponentTownSize = (maxOpponentTownSize+avgOpponentTownSize)/2;

                    if ((round-1)%3==1)
                    {
                        // find the next strongest town of our target Opponent that produces knights...
                        Town townToAttack = null;
                        for (Town town : otherTowns)
                        {
                            if (town.getLowbornCount() > 0 && town.getOwner() == targetOpponent && (townToAttack == null || town.getKnightCount()>townToAttack.getKnightCount()))
                            {
                                townToAttack=town;
                            }
                        } 


                        // target opponent cannot grow so choose another opponent...
                        // favour the weakest opponent that has has some towns that produces towns..
                        // otherwise favour the weakest opponent
                        if (townToAttack==null)
                        {
                            townToAttack=chooseNewOpponentToAttack();
                        }
                        targetOpponent=townToAttack.getOwner();

                        int minKnightsToLeaveAtThisTown = calculateDesiredKnightsAtTown(thisTown);
                        int minKnightsToLeftAtAttackedTownAfterBattle = calculateDesiredKnightsAtTown(townToAttack);

                        double defenceBonus = townToAttack.hasDefenceBonus()?1.2:1;
                        double defenderAttackStrength = townToAttack.getKnightCount() * defenceBonus;
                        int knightsNeededToWinAndEnsureNotAttackedNextRound =  minKnightsToLeftAtAttackedTownAfterBattle + (int) (defenderAttackStrength);
                        knightsNeededToWinAndEnsureNotAttackedNextRound = knightsNeededToWinAndEnsureNotAttackedNextRound + ((knightsNeededToWinAndEnsureNotAttackedNextRound-defenderAttackStrength - townToAttack.getMinimumKnights() < 0) ?townToAttack.getMinimumKnights():0);
                        int knightsLeftAtSortieingTownAfterAttacking = thisTown.getKnightCount()-knightsNeededToWinAndEnsureNotAttackedNextRound;

                        // if the sortieing town is sufficiently safe from another attack after it attempts to attack the other town will it try to attack  
                        if (knightsLeftAtSortieingTownAfterAttacking > thisTown.getMinimumKnights()*2 &&
                            knightsLeftAtSortieingTownAfterAttacking>minKnightsToLeaveAtThisTown &&
                            thisTown.getFreeKnights()>knightsNeededToWinAndEnsureNotAttackedNextRound)
                        {
                            response = "A " + townToAttack.getId() + " " + knightsNeededToWinAndEnsureNotAttackedNextRound;
                        }
                        // not safe... so lets support our other towns
                        else
                        {
                            int surplusKnights = thisTown.getKnightCount()-minKnightsToLeaveAtThisTown;

                            // this town has surplusKnights
                            if (surplusKnights>0)
                            {
                                int knightsAvailable = Math.min(surplusKnights, thisTown.getFreeKnights());

                                // find our weakest and strongest towns
                                Town myWeakestTown=null;
                                Town myStrongestTown=null;
                                for (Town town : myTowns)
                                {
                                    if (!(town.getKnightCount()==0 && round<50) && (myWeakestTown == null || town.getKnightCount()<myWeakestTown.getKnightCount()))
                                    {
                                        myWeakestTown=town;
                                    }
                                    if (!(town.getKnightCount()==0 && round<50) && ( myStrongestTown == null || town.getKnightCount()>myStrongestTown.getKnightCount()))
                                    {
                                        myStrongestTown=town;
                                    }
                                }

                                // see if my Weakest Town needs support
                                Town townToSupport = null;
                                int knightsToSend=0;
                                if (thisTown!=myWeakestTown)
                                {
                                    int desiredKnightsAtTown = calculateDesiredKnightsAtTown(myWeakestTown);

                                    if (myWeakestTown.getKnightCount()<desiredKnightsAtTown)
                                    {
                                        int deltaDesiredKnights = desiredKnightsAtTown-myWeakestTown.getKnightCount();
                                        knightsToSend = Math.min(knightsAvailable, deltaDesiredKnights);
                                        townToSupport=myWeakestTown;
                                    }
                                }

                                // no towns needed support so we will attempt to support the strongest town
                                if (townToSupport == null)
                                {
                                    if (thisTown!=myStrongestTown)
                                    {
                                        int desiredKnightsAtTown = calculateDesiredKnightsAtTown(myStrongestTown);
                                        if (myStrongestTown.getKnightCount()<desiredKnightsAtTown)
                                        {
                                            int deltaDesiredKnights = desiredKnightsAtTown-myStrongestTown.getKnightCount();
                                            knightsToSend = Math.min(knightsAvailable, deltaDesiredKnights);

                                            knightsToSend = knightsAvailable;
                                            townToSupport=myStrongestTown;
                                        }
                                    }
                                }

                                // support the chosen town if possible
                                if (townToSupport != null)
                                {
                                    response = "S " + townToSupport.getId() + " " + knightsToSend;
                                }
                            }
                        }
                    }
                }
            }
        }

        // save state information
        try
        {
            ObjectOutputStream oos = new ObjectOutputStream(new FileOutputStream(file));
            oos.writeObject(townOwnerShipMap);
            oos.writeInt(targetOpponent);
            oos.close();
        }
        catch (Exception e)
        {
            e.printStackTrace();
        }

        System.out.println(response);
    }

    // returns a town of the opponent that is deemed to be the most worthy
    private final Town chooseNewOpponentToAttack()
    {
        Town townToAttack=null;

        // calculate opponent sizes
        HashMap<Integer,Opponent> opponentMap = new HashMap<Integer, Opponent>();
        for (Town town : otherTowns)
        {
            Opponent opponent = opponentMap.get(town.getOwner());
            if (opponent == null)
            {
                opponent = new Opponent(town.getOwner());
                opponentMap.put(town.getOwner(), opponent);
            }
            opponent.addTown(town);
        }


        // create sorted list of opponents based on strength. 
        List<Integer> opponentsByStrength = new ArrayList<Integer>(opponentMap.keySet());
        opponentsByStrength.sort(new Comparator<Integer>()
        {
            public int compare(Integer o1, Integer o2)
            {
                Opponent left = opponentMap.get(o1);
                Opponent right = opponentMap.get(o2);

                return left.getTotalKnights()-right.getTotalKnights();
            }
        });

        // attempt to choose the weakest opponent's weakest town that has some ability to generate knights...
        out:
        for (Integer opponent : opponentsByStrength)
        {
            for (Town town : opponentMap.get(opponent).getTowns())
            {
                if (town.getOwner() !=-1 && town.getLowbornCount() > 0 && (townToAttack == null || town.getKnightCount()<townToAttack.getKnightCount()))
                {
                    townToAttack=town;
                    break out;
                }
            } 
        }

        // no opponents left with knights producing towns... just go for the weakest town.
        if (townToAttack == null)
        {
            for (Town town : otherTowns)
            {
                if (townToAttack == null || town.getKnightCount()<townToAttack.getKnightCount())
                {
                    townToAttack=town;
                }
            } 
        }

        return townToAttack;
    }

    // returns the number of knights that should make this town safe from attack
    final private int calculateDesiredKnightsAtTown(Town town)
    {
        int minimumKnightsWeWantInATown = avgOpponentTownSize;
        return minimumKnightsWeWantInATown + town.getLowbornCount()==0?0:(minimumKnightsWeWantInATown +(int) (((double) town.getLowbornCount() / MAX_POSSIBLE_LOWBORNS_IN_TOWN) * (midAvgMaxOpponentTownSize-minimumKnightsWeWantInATown)));
    }

    /** represents a conquest of a Town by a player */
    class Conquest implements Serializable
    {
        private static final long serialVersionUID = -1120109012356785962L;
        private int owner;
        private int conquestRound;
        public int getOwner()
        {
            return owner;
        }
        public void setOwner(int owner)
        {
            this.owner = owner;
        }
        public int getConquestRound()
        {
            return conquestRound;
        }
        public void setConquestRound(int conquestRound)
        {
            this.conquestRound = conquestRound;
        }
        public Conquest(int owner, int conquestRound)
        {
            super();
            this.owner = owner;
            this.conquestRound = conquestRound;
        }

    }

    /** represents an opponent in the simulation */
     private class Opponent implements Serializable
     {
         private int ownerId;
         private int totalKnights;
         private List<Town> towns = new ArrayList<SuperProducer.Town>();

         public void addTown(Town town)
         {
             totalKnights+=town.getKnightCount();
             towns.add(town);
         }

        public int getOwnerId()
        {
            return ownerId;
        }

        public int getTotalKnights()
        {
            return totalKnights;
        }

        public List<Town> getTowns()
        {
            return towns;
        }

        public Opponent(int ownerId)
        {
            super();
            this.ownerId = ownerId;
        }
     }

     /** represents a Town in the simulation */
     private class Town implements Serializable
    {
        private static final long serialVersionUID = 5011668142883502165L;
        private final int ownerId;
        private final int id;
        private final int knights;
        private final int lowborns;
        private boolean defenceFlag =true;

        public Town(String string){
            String[] args = string.split("_");
            ownerId = Integer.parseInt(args[0]);
            id = Integer.parseInt(args[1]);
            knights = Integer.parseInt(args[2]);
            lowborns = Integer.parseInt(args[3]);
        }

        public boolean hasDefenceBonus()
        {
            return defenceFlag;
        }

        public void setDefenceBonus(boolean defenceFlag)
        {
            this.defenceFlag = defenceFlag;
        }

        public int getId() {
            return id;
        }

        public int getOwner() {
            return ownerId;
        }

        public int getKnightCount() {
            return knights;
        }

        public int getLowbornCount() {
            return lowborns;
        }

        public boolean isMine(){
            return ownerId == playerID;
        }

        public boolean isThisTown(){
            return id == thisTownID;
        }

        private int getFreeKnights() {
            return knights - lowborns / 2 - 1;
        }

        private int getMinimumKnights() {
            return lowborns / 2 + 1;
        }
    }
 }

Компилировать: javac SuperProducer.java

Выполнить: Java Moogiesoft. SuperProducer

C ++ 11, attackOn3

сам код не стал намного красивее, но теперь я использую другой способ нацеливания, возможно позже добавлю комментарии к коду.

Кажется, с ботами, с которыми я работаю, все в порядке, хотя он все еще труден против Франкенштейна и освободителя и не может постоянно выигрывать.

#include <iostream>
#include <string>
#include <vector>
#include <sstream>
#include <cmath>
#include <ratio>
#include <fstream>
#include <algorithm>

using namespace std;


class Town {
public:
    Town(int owner, int townId, int knights, int population, int roundToDefBonus);

    int getOwner();

    int getId();

    int getKnights();

    int getPopulation();

    int getFreeKnights();

    int neededConquer();

    int needRevolt();

    int getRoundToDef();

    bool operator<(const Town &other) const {
        return townId < other.townId;
    }

private:
    int owner;
    int townId;
    int knights;
    int population;
    int roundToDefBonus;
    double defBonus;
};

Town::Town(int inOwner, int inTownId, int inKnights, int inPopulation, int inRoundToDefBonus) {
    owner = inOwner;
    townId = inTownId;
    knights = inKnights;
    population = inPopulation;
    roundToDefBonus = inRoundToDefBonus;
    if (roundToDefBonus > 0) {
        defBonus = 1;
    }
    else {
        defBonus = 1.2;
    }
}

int Town::getOwner() {
    return owner;
}

int Town::getId() {
    return townId;
}

int Town::getKnights() {
    return knights;
}

int Town::getPopulation() {
    return population;
}

int Town::getFreeKnights() {
    return knights - population / 2;
}

int Town::neededConquer() {
    return max(static_cast<int>(ceil(knights * defBonus + population / 2)), 1);
}

int Town::needRevolt() {
    return knights * defBonus - population / 2;
}

int Town::getRoundToDef() {
    return roundToDefBonus;
}

#define maxRounds 100
#define newKnights 3

const int attackround = newKnights - 1;
const int getEmptyTowns = maxRounds - 5;

int gameRound;
int myId;
int thisTownId;
Town *thisTown;

vector<Town> myTowns;
vector<Town> enemyTowns;

vector<Town> lastTime;

string turn();

Town *bestGainTarget(int knights);

Town *bestSafe(int knights);

Town *biggestTarget(int knights);

Town *biggestSafe(int knights);

Town *weakTarget(int knights);


string out(string, int, int);

string attack(Town *);

string safe(Town *);

bool sortTowns(const Town &t1, const Town &t2);

vector<string> stringSplit(string input, string delimeter);

int getBiggestEnemyId();

int main(int argc, char *argv[]) {
    if (argc < 2) {
        cout << "100 100 100";
        ofstream myFile;
        myFile.open("attackOn3.txt");
        myFile << "0\n";
        myFile.close();
    }
    else {
        if (argc == 2) {

            string input = argv[1];
            vector<string> params = stringSplit(input, ";");

            gameRound = atoi(params.at(0).c_str());
            myId = atoi((params.at(1)).c_str());
            thisTownId = atoi(params.at(2).c_str());

            ifstream myfile("attackOn3.txt");
            if (myfile.is_open()) {
                string line;

                getline(myfile, line);
                bool newRound = false;
                if (atoi(line.c_str()) > gameRound) {
                    newRound = true;
                }

                vector<string> oldVals;
                if (!newRound) {
                    while (getline(myfile, line)) {
                        oldVals = stringSplit(line, "_");

                        int playerId = atoi(oldVals.at(0).c_str());
                        int townId = atoi(oldVals.at(1).c_str());
                        int knights = atoi(oldVals.at(2).c_str());
                        int population = atoi(oldVals.at(3).c_str());
                        int roundToDefBonus = atoi(oldVals.at(4).c_str());

                        lastTime.push_back(Town(playerId, townId, knights, population, roundToDefBonus));
                        oldVals.clear();
                    }
                }
                else {
                    while (getline(myfile, line)) {
                        oldVals = stringSplit(line, "_");

                        int playerId = atoi(oldVals.at(0).c_str());
                        int townId = atoi(oldVals.at(1).c_str());
                        int knights = atoi(oldVals.at(2).c_str());
                        int population = atoi(oldVals.at(3).c_str());
                        int roundToDefBonus = atoi(oldVals.at(4).c_str());
                        if (roundToDefBonus) {   //if round def bonus > 0, decrement because new round
                            roundToDefBonus--;
                        }

                        lastTime.push_back(Town(playerId, townId, knights, population, roundToDefBonus));
                        oldVals.clear();
                    }

                }
                std::sort(lastTime.begin(), lastTime.end());
            }

            if (lastTime.size() > 0) {
                vector<string> values;
                for (int i = 3; i < params.size(); i++) {

                    values = stringSplit(params.at(i), "_");

                    int playerId = atoi(values.at(0).c_str());
                    int townId = atoi(values.at(1).c_str());
                    int knights = atoi(values.at(2).c_str());
                    int population = atoi(values.at(3).c_str());

                    int roundsToDef = lastTime.at(townId).getRoundToDef();
                    if (playerId != lastTime.at(townId).getOwner()) {
                        roundsToDef = 2;
                    }
                    if (playerId == myId) {
                        if (thisTownId != townId)
                            myTowns.push_back(Town(playerId, townId, knights, population, roundsToDef));
                        else {
                            thisTown = new Town(playerId, townId, knights, population, roundsToDef);
                        }
                    }
                    else {
                        enemyTowns.push_back(Town(playerId, townId, knights, population, roundsToDef));
                    }
                    values.clear();
                }
            }
            else {
                vector<string> values;
                for (int i = 3; i < params.size(); i++) {

                    values = stringSplit(params.at(i), "_");

                    int playerId = atoi(values.at(0).c_str());
                    int townId = atoi(values.at(1).c_str());
                    int knights = atoi(values.at(2).c_str());
                    int population = atoi(values.at(3).c_str());

                    if (playerId == myId) {
                        if (thisTownId != townId)
                            myTowns.push_back(Town(playerId, townId, knights, population, 0));
                        else {
                            thisTown = new Town(playerId, townId, knights, population, 0);
                        }
                    }
                    else {
                        enemyTowns.push_back(Town(playerId, townId, knights, population, 0));
                    }
                    values.clear();
                }
            }

            string tmp = turn();
            cout << tmp;

            ofstream writeFile("attackOn3.txt");
            if (writeFile.is_open()) {
                writeFile << gameRound << "\n";

                writeFile << thisTown->getOwner() << "_" << thisTown->getId() << "_" << thisTown->getKnights() << "_" << thisTown->getPopulation() << "_" << thisTown->getRoundToDef() << "\n";

                for (vector<Town>::size_type i = 0; i != myTowns.size(); i++) {
                    writeFile << myTowns[i].getOwner() << "_" << myTowns[i].getId() << "_" << myTowns[i].getKnights() << "_" << myTowns[i].getPopulation() << "_" << myTowns[i].getRoundToDef() << "\n";
                }
                for (vector<Town>::size_type i = 0; i != enemyTowns.size(); i++) {
                    writeFile << enemyTowns[i].getOwner() << "_" << enemyTowns[i].getId() << "_" << enemyTowns[i].getKnights() << "_" << enemyTowns[i].getPopulation() << "_" << enemyTowns[i].getRoundToDef() << "\n";
                }
            }
        }
        else {
            cout << "error, wrong parameter";
        }
    }

    delete thisTown;

    return 0;
}


string turn() {
    Town *safeTarget;
    Town *attackTarget;
    if (thisTown->getFreeKnights() < 0) {    //evacuate
        safeTarget = biggestSafe(thisTown->getKnights());
        attackTarget = biggestTarget(thisTown->getKnights());

        if (safeTarget != nullptr && attackTarget != nullptr) {
            if (safeTarget->getPopulation() > attackTarget->getPopulation()) {
                return out("S", safeTarget->getId(), thisTown->getKnights());
            }
            else {
                return out("A", attackTarget->getId(), thisTown->getKnights());
            }
        }
        if (safeTarget) {
            return out("S", safeTarget->getId(), thisTown->getKnights());
        }
        if (attackTarget) {
            return out("A", attackTarget->getId(), thisTown->getKnights());
        }
        Town *target = &myTowns.at(0);
        for (vector<Town>::size_type i = 1; i != myTowns.size(); i++) {
            if (target->getPopulation() < myTowns[i].getPopulation())
                target = &myTowns[i];
        }
        return out("S", target->getId(), thisTown->getKnights());

    }

    safeTarget = biggestSafe(thisTown->getFreeKnights());
    if (gameRound % newKnights == attackround) {      //knights only get produced every 3 town, i want to conquer the best towns just before that so i get more reinforments and dont need to fight quite that much
        attackTarget = bestGainTarget(thisTown->getFreeKnights());
    }
    else {       //but if a town is easy to aquiere i still want it, e. g. because of revolution or someone weakened it so that it will revolte
        attackTarget = weakTarget(thisTown->getFreeKnights());
    }

    if (safeTarget != nullptr && attackTarget != nullptr) {
        if (safeTarget->getPopulation() > attackTarget->getPopulation()) {
            return safe(safeTarget);
        }
        else {
            return attack(attackTarget);
        }
    }
    if (safeTarget) {
        return safe(safeTarget);
    }
    if (attackTarget) {
        return attack(attackTarget);
    }

    if (gameRound > getEmptyTowns) {     //empty towns dont matter early on but still count to win score
        for (vector<Town>::size_type i = 0; i != enemyTowns.size(); i++) {
            if (enemyTowns[i].getPopulation() < 2) {
                if (enemyTowns[i].neededConquer() < thisTown->getFreeKnights()) {
                    return attack(&enemyTowns[i]);
                }
            }
        }
    }

    int biggestEnemy = getBiggestEnemyId();
    //if last round attack possible biggest other guy
    if (gameRound == maxRounds) {
        int targetKnights = -1;
        Town *target;
        for (vector<Town>::size_type i = 0; i != enemyTowns.size(); i++) {
            if (enemyTowns[i].getOwner() == biggestEnemy) {
                if (enemyTowns[i].neededConquer() < thisTown->getFreeKnights()) {
                    if (enemyTowns[i].getFreeKnights() > targetKnights) {
                        target = &enemyTowns[i];
                        targetKnights = target->getFreeKnights();
                    }
                }
            }
        }
        if (targetKnights > -1) {
            attack(target);
        }
    }
    //revolt from biggest other guy
    if (gameRound > 10) {        //most bots need a bit of time
        int targetPop = 0;
        Town *target;
        for (vector<Town>::size_type i = 0; i != enemyTowns.size(); i++) {
            if (enemyTowns[i].getOwner() == biggestEnemy) {
                if (enemyTowns[i].needRevolt() < thisTown->getFreeKnights()) {
                    if (enemyTowns[i].getPopulation() > targetPop) {
                        target = &enemyTowns[i];
                        targetPop = target->getPopulation();
                    }
                }
            }
        }
        if (targetPop != 0) {
            return attack(target);
        }
    }

    return "W";
}

Town *bestGainTarget(int knights) {
    Town *target = nullptr;
    int gain = -thisTown->getFreeKnights();
    int now = -thisTown->getFreeKnights();
    //int loses = thisTown->getFreeKnights();
    for (vector<Town>::size_type i = 0; i != enemyTowns.size(); i++) {
        int conquer = enemyTowns[i].neededConquer();
        if (conquer < knights && enemyTowns[i].getPopulation() > 0) {
            if (enemyTowns[i].getPopulation() * 2 *1.2 - conquer > gain) {
                if(enemyTowns[i].getPopulation() - conquer > now){
                    target = &enemyTowns[i];
                    now = target->getPopulation() - conquer;
                    gain = target->getPopulation() * 2 - conquer;
                }
            }
        }
    }
    return target;
}

Town *weakTarget(int knights) {     //maybe change it that it prefers targets with 0/40 over 24/50
    Town *target = nullptr;
    double population = 1;
    for (vector<Town>::size_type i = 0; i != enemyTowns.size(); i++) {
        if (enemyTowns[i].neededConquer() < knights) {
            if (enemyTowns[i].getKnights() < enemyTowns[i].getPopulation() / 2) {
                if (enemyTowns[i].getPopulation() > population) {
                    target = &enemyTowns[i];
                    population = target->getPopulation();
                }
            }
        }
    }
    return target;
}

Town *biggestTarget(int knights) {
    Town *target = nullptr;
    int population = -1;
    for (vector<Town>::size_type i = 0; i != enemyTowns.size(); i++) {
        if (enemyTowns[i].neededConquer() < knights) {
            if (enemyTowns[i].getPopulation() > population) {
                target = &enemyTowns[i];
                population = target->getPopulation();
            }
        }
    }
    return target;
}

Town *biggestSafe(int knights) {
    Town *target = nullptr;
    int population = -1;
    for (vector<Town>::size_type i = 0; i != myTowns.size(); i++) {
        if (myTowns[i].getFreeKnights() < 0 && myTowns[i].getFreeKnights() + knights >= 0) {
            if (myTowns[i].getPopulation() > population) {
                target = &myTowns[i];
                population = target->getPopulation();
            }
        }
    }
    return target;
}

int getBiggestEnemyId() {
    int players[enemyTowns.size() / 3 + 1];
    for (vector<Town>::size_type i = 0; i != enemyTowns.size(); i++) {
        if (enemyTowns[i].getOwner() != -1) {
            players[enemyTowns[i].getOwner()] = enemyTowns[i].getPopulation();
        }
    }
    int max = 0;
    for (int i = 1; i < enemyTowns.size() / 3 + 1; i++) {
        if (players[i] > players[max]) {
            max = i;
        }
    }
}

string attack(Town *target) {
    int knights;
    if (thisTown->getPopulation() > target->getPopulation()) {
        knights = target->neededConquer();
    }
    else {
        knights = thisTown->getFreeKnights();
    }
    return out("A", target->getId(), knights);
}

string safe(Town *target) {
    int knights;
    if (thisTown->getPopulation() > target->getPopulation()) {
        knights = target->getFreeKnights() * -1;
    }
    else {
        knights = thisTown->getFreeKnights();
    }
    return out("S", target->getId(), knights);
}

string out(string order, int targedId, int knights) {
    stringstream tmp;
    tmp << order << " " << targedId << " " << knights;
    return tmp.str();
}

vector<string> stringSplit(string input, string delimeter) {
    stringstream tmp(input);
    vector<string> splitted;
    string pushThis;
    while (getline(tmp, pushThis, delimeter.at(0))) {
        splitted.push_back(pushThis);
    }
    return splitted;
}

скомпилировать с: g++ -std=c++11 attackOn3.cpp -o attackOn3.exe
и запуститьattackOn3.exe