public static void RandomizePokemon(Random random, TeamShufflerSettings settings, ITrainerPokemon pokemon, Pokemon[] pokemonList)
{
if (settings.RandomizePokemon)
{
var index = 0;
while (index == 0 || RandomizerConstants.SpecialPokemon.Contains(index) || (settings.DontUseLegendaries && RandomizerConstants.Legendaries.Contains(index)))
{
index = random.Next(1, pokemonList.Length);
}
pokemon.Pokemon = (ushort)index;
}
if (settings.ForceFullyEvolved && pokemon.Level >= settings.ForceFullyEvolvedLevel)
{
var currPoke = pokemonList[pokemon.Pokemon];
if (PokemonTraitShuffler.CheckForSplitOrEndEvolution(currPoke, out var count) && count > 0)
{
// randomly pick from the split
var evoInd = random.Next(0, count);
pokemon.Pokemon = currPoke.Evolutions[evoInd].EvolvesInto;
}
else if (count == 1)
{
// it wasn't split or the end but still evolved
pokemon.Pokemon = currPoke.Evolutions[0].EvolvesInto;
}
}
}
public static void RandomizeXDStatics(Random random, StaticPokemonShufflerSettings settings, XDStarterPokemon starter, ISO iso, ExtractedGame extractedGame)
{
int index = 0;
Evolution secondStage;
bool condition = false;
Logger.Log("=============================== Statics ===============================\n\n");
// pick starters
// basically set a condition based on the setting, keep looping till you meet it
switch (settings.Starter)
{
case StarterRandomSetting.Custom:
{
index = extractedGame.PokemonList.FirstOrDefault(p => p.Name.ToLower() == settings.Starter1.ToLower())?.Index ?? starter.Pokemon;
}
break;
case StarterRandomSetting.Random:
{
while (index == 0 || RandomizerConstants.SpecialPokemon.Contains(index))
{
index = random.Next(1, extractedGame.PokemonList.Length);
}
}
break;
case StarterRandomSetting.RandomThreeStage:
while (!condition)
{
var newStarter = extractedGame.PokemonList[random.Next(0, extractedGame.ValidPokemon.Length)];
index = newStarter.Index;
secondStage = extractedGame.PokemonList[index].Evolutions[0];
condition = !PokemonTraitShuffler.CheckForSplitOrEndEvolution(newStarter, out int _) &&
!PokemonTraitShuffler.CheckForSplitOrEndEvolution(extractedGame.PokemonList[secondStage.EvolvesInto], out int _)
// check if any pokemon evolve into this one, less likely for three stages but probably good to check anyway
&& !extractedGame.ValidPokemon.Any(p =>
{
for (int i = 0; i < p.Evolutions.Length; i++)
{
if (p.Evolutions[i].EvolvesInto == index)
{
return(true);
}
}
return(false);
});
}
break;
case StarterRandomSetting.RandomTwoStage:
while (!condition)
{
var newStarter = extractedGame.PokemonList[random.Next(0, extractedGame.ValidPokemon.Length)];
index = newStarter.Index;
secondStage = extractedGame.PokemonList[index].Evolutions[0];
condition = !PokemonTraitShuffler.CheckForSplitOrEndEvolution(newStarter, out int _) &&
PokemonTraitShuffler.CheckForSplitOrEndEvolution(extractedGame.PokemonList[secondStage.EvolvesInto], out int count) &&
count == 0
// check if any pokemon evolve into this one
&& !extractedGame.ValidPokemon.Any(p =>
{
for (int i = 0; i < p.Evolutions.Length; i++)
{
if (p.Evolutions[i].EvolvesInto == index)
{
return(true);
}
}
return(false);
});
}
break;
case StarterRandomSetting.RandomSingleStage:
while (!condition)
{
var newStarter = extractedGame.PokemonList[random.Next(0, extractedGame.ValidPokemon.Length)];
index = newStarter.Index;
condition = PokemonTraitShuffler.CheckForSplitOrEndEvolution(newStarter, out int count) &&
count == 0
// check if any pokemon evolve into this one
&& !extractedGame.ValidPokemon.Any(p =>
{
for (int i = 0; i < p.Evolutions.Length; i++)
{
if (p.Evolutions[i].EvolvesInto == index)
{
return(true);
}
}
return(false);
});
}
break;
default:
case StarterRandomSetting.Unchanged:
index = starter.Pokemon;
break;
}
starter.Pokemon = (ushort)index;
Logger.Log($"Your new starter is {extractedGame.PokemonList[index].Name}\n");
// instance pokemon have separate movesets than the pool
// i.e. if you don't update the moveset than your starter will have Eevee's move set
ushort[] moves;
if (settings.MoveSetOptions.RandomizeMovesets || settings.Starter != StarterRandomSetting.Unchanged)
{
Logger.Log($"It knows:\n");
moves = MoveShuffler.GetNewMoveset(random, settings.MoveSetOptions, starter.Pokemon, starter.Level, extractedGame);
for (int i = 0; i < moves.Length; i++)
{
var move = moves[i];
Logger.Log($"{extractedGame.MoveList[move].Name}\n");
starter.SetMove(i, move);
}
}
List <Pokemon> newRequestedPokemon = new List <Pokemon>();
List <Pokemon> newGivenPokemon = new List <Pokemon>();
var pokemon = extractedGame.ValidPokemon;
// set given
switch (settings.Trade)
{
default:
case TradeRandomSetting.Unchanged:
Logger.Log("Unchanged\n\n");
return;
case TradeRandomSetting.Given:
case TradeRandomSetting.Both:
for (int i = 0; i < extractedGame.GiftPokemonList.Length; i++)
{
var giftPoke = extractedGame.GiftPokemonList[i];
var newPoke = pokemon[random.Next(0, pokemon.Length)];
giftPoke.Pokemon = (ushort)newPoke.Index;
if (giftPoke.GiftType.Contains("Duking"))
{
newGivenPokemon.Add(newPoke);
}
ushort[] newMoveSet = MoveShuffler.GetNewMoveset(random, settings.MoveSetOptions, giftPoke.Pokemon, extractedGame.GiftPokemonList[i].Level, extractedGame);
for (int j = 0; j < newMoveSet.Length; j++)
{
extractedGame.GiftPokemonList[i].SetMove(j, newMoveSet[j]);
}
}
break;
case TradeRandomSetting.Requested:
for (int i = 0; i < 3; i++)
{
newGivenPokemon.Add(extractedGame.PokemonList[new XDTradePokemon((byte)(i + 2), iso).Pokemon]);
}
break;
}
// set requested
for (int i = 0; i < 3; i++)
{
var pokeSpot = new PokeSpotPokemon(2, (PokeSpotType)i, iso);
var newRequestedPoke = settings.UsePokeSpotPokemonInTrade || settings.Trade == TradeRandomSetting.Requested || settings.Trade == TradeRandomSetting.Both
? extractedGame.PokemonList[pokeSpot.Pokemon]
: pokemon[random.Next(0, pokemon.Length)];
newRequestedPokemon.Add(newRequestedPoke);
}
Logger.Log($"Requested Pokemon: {string.Join(", ", newRequestedPokemon.Select(p => p.Name))}\n");
Logger.Log($"Given Pokemon: {string.Join(", ", newGivenPokemon.Select(p => p.Name))}\n");
XDTradePokemon.UpdateTrades(iso, newRequestedPokemon.ToArray(), newGivenPokemon.ToArray());
}