public CavernaPlayer(int food, IServerSocket serverSocket)
{
_serverSocket = serverSocket;
tilesManager = new CavernaPlayerTilesManager(this);
animalManager = new AnimalManager();
_playerResources = new PlayerResources();
_newRoundBonuses = new List<List<string>>();
//these will trigger a ui update, in case you started a new game
Wood = 0;
Ore = 0;
Stone = 0;
Veg = 0;
Grain = 0;
Food = food;
Rubies = 0;
Gold = 0;
BeggingCards = 0;
_dwarves.Add(new Dwarf(false, _dwarves.Count+1));
_dwarves.Add(new Dwarf(false, _dwarves.Count+1));
CalculatePlayerScore();
}
public void AutoArrangeAnimals(IServerSocket serverSocket, AnimalManager animalManager, bool triggerChoice, bool discardExcess, bool isBreeding)
{
//Entry room holds 2 of same type
//Pasture holds 2 of same type
//Large pasture holds 4 of same time
//Stable on pasture doubles capacity
//Stable on meadow holds 1 animal
//Ore/Ruby mine -> 1 donkey each
//Stable on forest holds 1 pig
//Dogs go anywhere... but preferably on meadow/pasture
//dog(s) on meadow holds dogs+1 sheep OR meadow capacity
//dog(s) on pasture holder dogs+1 sheep OR pasture capacity
//other areas exist as 'blocks'
//dogs can cause these to be variable... there will be P*D combinations, where
//P = number of meadows/pastures, D = number of dogs
//maybe just do these if we have excess sheep... which will be allocated last anyway.
List<AnimalHolder> animalsHolders = new List<AnimalHolder>();
//add starting tile
AnimalHolder startingTile = new AnimalHolder();
startingTile.TileType = TileTypes.StartingTile;
startingTile.genericCapacity = 2;
startingTile.position = new Vector2(0f, 0f);
startingTile.isCave = true;
animalsHolders.Add(startingTile);
//add single fenced areas
List<Vector2> smallFencedAreas = GetMatchingForestTileSpaces(TileTypes.SmallFence);
foreach (Vector2 smallPasture in smallFencedAreas)
{
AnimalHolder pasture = new AnimalHolder();
pasture.TileType = TileTypes.SmallFence;
pasture.isCave = false;
pasture.genericCapacity = 2;
pasture.position = smallPasture;
if (StableSpaces[(int)smallPasture.x, (int)smallPasture.y] == TileTypes.Stable)
pasture.genericCapacity = pasture.genericCapacity*2;
animalsHolders.Add(pasture);
}
//add double fenced areas
for(int i=0; i< _doubleFencedPastures.Count; i+=2)
{
AnimalHolder pasture = new AnimalHolder();
pasture.TileType = TileTypes.BigFence1;
pasture.isCave = false;
pasture.genericCapacity = 4;
pasture.position = _doubleFencedPastures[i];
if (StableSpaces[(int)_doubleFencedPastures[i].x, (int)_doubleFencedPastures[i].y] == TileTypes.Stable)
pasture.genericCapacity = pasture.genericCapacity * 2;
if (StableSpaces[(int)_doubleFencedPastures[i+1].x, (int)_doubleFencedPastures[i+1].y] == TileTypes.Stable)
pasture.genericCapacity = pasture.genericCapacity * 2;
animalsHolders.Add(pasture);
}
//add meadows with stables
List<Vector2> meadows = GetMatchingForestTileSpaces(TileTypes.Clearing);
foreach (Vector2 meadow in meadows)
{
AnimalHolder clearing = new AnimalHolder();
clearing.TileType = TileTypes.Clearing;
clearing.isCave = false;
clearing.genericCapacity = 0;
clearing.position = meadow;
if (StableSpaces[(int)meadow.x, (int)meadow.y] == TileTypes.Stable)
clearing.genericCapacity = 1;
animalsHolders.Add(clearing);
}
//add forests with stables
List<Vector2> forestPositions = GetMatchingForestTileSpaces(null);
foreach (Vector2 position in forestPositions)
{
AnimalHolder holder = new AnimalHolder();
holder.TileType = null;
holder.isCave = false;
holder.genericCapacity = 0;
holder.position = position;
if (StableSpaces[(int)position.x, (int)position.y] == TileTypes.Stable)
holder.pigCapacity = 1;
animalsHolders.Add(holder);
}
//add ore mines
List<Vector2> oreMinePositions = GetMatchingCaveTileSpaces(TileTypes.OreMine);
foreach (Vector2 position in oreMinePositions)
{
AnimalHolder holder = new AnimalHolder();
holder.TileType = TileTypes.OreMine;
holder.isCave = true;
holder.donkeyCapacity = 1;
holder.position = position;
animalsHolders.Add(holder);
}
//add ruby mines
List<Vector2> rubyMinePositions = GetMatchingCaveTileSpaces(TileTypes.RubyMine);
foreach (Vector2 position in rubyMinePositions)
{
AnimalHolder holder = new AnimalHolder();
holder.TileType = TileTypes.RubyMine;
holder.isCave = true;
holder.donkeyCapacity = 1;
holder.position = position;
animalsHolders.Add(holder);
}
//add special buildings
List<Vector2> mixedDwellingPositions = GetMatchingCaveTileSpaces(BuildingTypes.MixedDwelling);
foreach (Vector2 position in mixedDwellingPositions)
{
AnimalHolder holder = new AnimalHolder();
holder.TileType = BuildingTypes.MixedDwelling;
holder.isCave = true;
holder.genericCapacity = 2;
holder.position = position;
animalsHolders.Add(holder);
}
List<Vector2> breakfastRoomPositions = GetMatchingCaveTileSpaces(BuildingTypes.BreakfastRoom);
foreach (Vector2 position in breakfastRoomPositions)
{
AnimalHolder holder = new AnimalHolder();
holder.TileType = BuildingTypes.BreakfastRoom;
holder.isCave = true;
holder.cowCapacity = 3;
holder.position = position;
animalsHolders.Add(holder);
}
List<Vector2> cuddleRoomPositions = GetMatchingCaveTileSpaces(BuildingTypes.CuddleRoom);
foreach (Vector2 position in cuddleRoomPositions)
{
AnimalHolder holder = new AnimalHolder();
holder.TileType = BuildingTypes.CuddleRoom;
holder.isCave = true;
holder.sheepCapacity = _player.GetDwarfStatus().Count;
holder.position = position;
animalsHolders.Add(holder);
}
//add whatever the dogs are doing
int cowsToAllocate = animalManager.Cows;
int pigsToAllocate = animalManager.Pigs;
int donkeysToAllocate = animalManager.Donkeys;
int sheepToAllocate = animalManager.Sheep;
int dogsToAllocate = animalManager.Dogs;
//Dogs spread between meadows as evenly as possible
//sheepWatched = Math.Min(dogs, meadows)*2
//if dogs > meadows
//sheepWatched += dogs-meadows
//e.g, 5 dogs 2 meadows --> 7 sheep
//---> possible exception for stabled meadow... assign dogs to this last (generic capacity 1)
//
//If no meadows, dogs cluster in lowest capacity pasture to maximise extra sheep capacity
//
//If no pastures, dogs can live in the home dwelling or near the house or something
//
//When filling areas, do not assign sheep/generic areas until after all sheep only areas.
//Then assign sheep only if there are MORE sheep than generic capacity (ie, extra space will get used)
//Otherwise, treat as normal
//ASSIGN DOGS
if (dogsToAllocate > 0)
{
if (animalsHolders.Count(x => x.TileType == TileTypes.Clearing) > 0)
{
List<AnimalHolder> clearings = animalsHolders.Where(x => x.TileType == TileTypes.Clearing).OrderBy(x => x.genericCapacity).ToList();
while (dogsToAllocate > 0)
{
foreach (AnimalHolder clearing in clearings)
{
clearing.AddDog(ref dogsToAllocate);
}
}
}
else if (animalsHolders.Count(x => x.TileType == TileTypes.SmallFence || x.TileType == TileTypes.BigFence1) > 0)
{
AnimalHolder smallestCapacity = animalsHolders.Where(x => x.TileType == TileTypes.SmallFence || x.TileType == TileTypes.BigFence1).OrderBy(x => x.genericCapacity).First();
smallestCapacity.FillAnimals(ResourceTypes.Dogs, ref dogsToAllocate);
}
else
{
//put them in the house
AnimalHolder tile = animalsHolders.First(x => x.TileType == TileTypes.StartingTile);
tile.FillAnimals(ResourceTypes.Dogs, ref dogsToAllocate);
}
}
//FIRST PASS - areas only for specific animals
while (cowsToAllocate > 0)
{
//first find spaces that only hold cows
List<AnimalHolder> cowHolders = animalsHolders.FindAll(x => x.IsUnfilledCowHolder);
if (cowHolders.Count > 0)
{
cowHolders[0].FillAnimals(ResourceTypes.Cows, ref cowsToAllocate);
continue;
}
//nowhere to put them!
break;
}
while (pigsToAllocate > 0)
{
//first find spaces that only hold pigs
List<AnimalHolder> pigHolders = animalsHolders.FindAll(x => x.IsUnfilledPigHolder);
if (pigHolders.Count > 0)
{
pigHolders[0].FillAnimals(ResourceTypes.Pigs, ref pigsToAllocate);
continue;
}
//nowhere to put them!
break;
}
while (donkeysToAllocate > 0)
{
//first find spaces that only hold donkeys
List<AnimalHolder> donkeyHolders = animalsHolders.FindAll(x => x.IsUnfilledDonkeyHolder);
if (donkeyHolders.Count > 0)
{
donkeyHolders[0].FillAnimals(ResourceTypes.Donkeys, ref donkeysToAllocate);
continue;
}
//nowhere to put them!
break;
}
//When filling areas, do not assign sheep & generic areas until after all sheep only areas.
//Then assign sheep only if there are MORE sheep than generic capacity (ie, extra space will get used)
while (sheepToAllocate > 0)
{
//first find spaces that ONLY hold sheep
List<AnimalHolder> sheepHolders = animalsHolders.FindAll(x => x.IsUnfilledSheepHolder && x.genericCapacity ==0);
if (sheepHolders.Count > 0)
{
sheepHolders[0].FillAnimals(ResourceTypes.Sheep, ref sheepToAllocate);
continue;
}
//then places that will get more sheep assigned than generic capacity
sheepHolders = animalsHolders.FindAll(x => x.IsUnfilledSheepHolder && sheepToAllocate > x.genericCapacity);
if (sheepHolders.Count > 0)
{
sheepHolders[0].FillAnimals(ResourceTypes.Sheep, ref sheepToAllocate);
continue;
}
//other places get assigned as normal
break;
}
//SECOND PASS - take group with most animals, put in biggest pen. Repeat.
bool fillMade = true;
while (fillMade)
{
int maxAnimals = new[] {cowsToAllocate, pigsToAllocate, donkeysToAllocate, sheepToAllocate}.Max();
fillMade = false;
if (cowsToAllocate > 0 && cowsToAllocate == maxAnimals)
{
//find the space that holds most cows, and put them there
List<AnimalHolder> primaryHolders =
animalsHolders.FindAll(x => x.RemainingCowCapacity > 0).OrderByDescending(x => x.RemainingCowCapacity)
.ToList();
if (primaryHolders.Count > 0)
{
primaryHolders[0].FillAnimals(ResourceTypes.Cows, ref cowsToAllocate);
fillMade = true;
}
}
else if (pigsToAllocate > 0 && pigsToAllocate == maxAnimals)
{
//find the space that holds most cows, and put them there
List<AnimalHolder> primaryHolders =
animalsHolders.FindAll(x => x.RemainingPigCapacity > 0).OrderByDescending(x => x.RemainingPigCapacity)
.ToList();
if (primaryHolders.Count > 0)
{
primaryHolders[0].FillAnimals(ResourceTypes.Pigs, ref pigsToAllocate);
fillMade = true;
}
}
else if (donkeysToAllocate > 0 && donkeysToAllocate == maxAnimals)
{
//find the space that holds most cows, and put them there
List<AnimalHolder> primaryHolders =
animalsHolders.FindAll(x => x.RemainingDonkeyCapacity > 0).OrderByDescending(x => x.RemainingDonkeyCapacity)
.ToList();
if (primaryHolders.Count > 0)
{
primaryHolders[0].FillAnimals(ResourceTypes.Donkeys, ref donkeysToAllocate);
fillMade = true;
}
}
else if (sheepToAllocate > 0 && sheepToAllocate == maxAnimals)
{
//find the space that holds most cows, and put them there
List<AnimalHolder> primaryHolders =
animalsHolders.FindAll(x => x.RemainingSheepCapacity > 0).OrderByDescending(x => x.RemainingSheepCapacity)
.ToList();
if (primaryHolders.Count > 0)
{
primaryHolders[0].FillAnimals(ResourceTypes.Sheep, ref sheepToAllocate);
fillMade = true;
}
}
}
//now draw it to the screen
foreach (AnimalHolder holder in animalsHolders)
{
serverSocket.SetTileAnimals(holder.position, holder.isCave, ResourceTypes.Dogs, 0);
serverSocket.SetTileAnimals(holder.position, holder.isCave, ResourceTypes.Sheep, 0);
serverSocket.SetTileAnimals(holder.position, holder.isCave, ResourceTypes.Donkeys, 0);
serverSocket.SetTileAnimals(holder.position, holder.isCave, ResourceTypes.Pigs, 0);
serverSocket.SetTileAnimals(holder.position, holder.isCave, ResourceTypes.Cows, 0);
if (holder.GetDogs() > 0)
serverSocket.SetTileAnimals(holder.position, holder.isCave, ResourceTypes.Dogs, holder.GetDogs());
if (holder.GetSheep() > 0)
serverSocket.SetTileAnimals(holder.position, holder.isCave, ResourceTypes.Sheep, holder.GetSheep());
if (holder.GetDonkeys() > 0)
serverSocket.SetTileAnimals(holder.position, holder.isCave, ResourceTypes.Donkeys, holder.GetDonkeys());
if (holder.GetPigs() > 0)
serverSocket.SetTileAnimals(holder.position, holder.isCave, ResourceTypes.Pigs, holder.GetPigs());
if (holder.GetCows() > 0)
serverSocket.SetTileAnimals(holder.position, holder.isCave, ResourceTypes.Cows, holder.GetCows());
}
//did we have leftovers? if so, need to warn the player
ArrangeAnimalsTriggered = false;
if (cowsToAllocate + pigsToAllocate + donkeysToAllocate + sheepToAllocate == 0)
return;
ArrangeAnimalsTriggered = true;
if (discardExcess)
{
//do not trigger the normal checks with this, use aninal manager to avoid
animalManager.Cows -= cowsToAllocate;
animalManager.Pigs -= pigsToAllocate;
animalManager.Donkeys -= donkeysToAllocate;
animalManager.Sheep -= sheepToAllocate;
}
if (!triggerChoice)
return;
string result = "Unassigned animals: ";
if (cowsToAllocate > 0)
result += cowsToAllocate + " cows, ";
if (pigsToAllocate > 0)
result += pigsToAllocate + " pigs, ";
if (donkeysToAllocate > 0)
result += donkeysToAllocate + " donkeys, ";
if (sheepToAllocate > 0)
result += sheepToAllocate + " sheep, ";
List<string> options = new List<string>();
options.Add(DiscardActions.DiscardAllUnassignedAnimals);
//are we in the breeding phase?
if (isBreeding)
{
if (animalManager.Cows > 0)
options.Add(DiscardActions.DiscardCow);
if (animalManager.Pigs > 0)
options.Add(DiscardActions.DiscardPig);
if (animalManager.Donkeys > 0)
options.Add(DiscardActions.DiscardDonkey);
if (animalManager.Sheep > 0)
options.Add(DiscardActions.DiscardSheep);
}
else
{
if (HasTile(BuildingTypes.SlaughteringCave))
{
if (animalManager.Cows > 0)
options.Add(FoodActions.SlaughteringCaveConvertCow);
if (animalManager.Pigs > 0)
options.Add(FoodActions.SlaughteringCaveConvertPig);
if (animalManager.Donkeys > 1)
options.Add(FoodActions.SlaughteringCaveConvertDonkeyPair);
if (animalManager.Donkeys > 0)
options.Add(FoodActions.SlaughteringCaveConvertDonkey);
if (animalManager.Sheep > 0)
options.Add(FoodActions.SlaughteringCaveConvertSheep);
}
else
{
if (animalManager.Cows > 0)
options.Add(FoodActions.ConvertCow);
if (animalManager.Pigs > 0)
options.Add(FoodActions.ConvertPig);
if (animalManager.Donkeys > 1)
options.Add(FoodActions.ConvertDonkeyPair);
if (animalManager.Donkeys > 0)
options.Add(FoodActions.ConvertDonkey);
if (animalManager.Sheep > 0)
options.Add(FoodActions.ConvertSheep);
}
}
serverSocket.GetPlayerChoice("playerID", "Allocate Animals", result, options);
}
