PKHeX/PKHeX.Core/Legality/Evolutions/EvolutionGroup/EvolutionGroup8.cs
Kurt 9166d0eb64
Refactoring: Move Source (Legality) (#3560)
Rewrites a good amount of legality APIs pertaining to:
* Legal moves that can be learned
* Evolution chains & cross-generation paths
* Memory validation with forgotten moves

In generation 8, there are 3 separate contexts an entity can exist in: SW/SH, BD/SP, and LA. Not every entity can cross between them, and not every entity from generation 7 can exist in generation 8 (Gogoat, etc). By creating class models representing the restrictions to cross each boundary, we are able to better track and validate data.

The old implementation of validating moves was greedy: it would iterate for all generations and evolutions, and build a full list of every move that can be learned, storing it on the heap. Now, we check one game group at a time to see if the entity can learn a move that hasn't yet been validated. End result is an algorithm that requires 0 allocation, and a smaller/quicker search space.

The old implementation of storing move parses was inefficient; for each move that was parsed, a new object is created and adjusted depending on the parse. Now, move parse results are `struct` and store the move parse contiguously in memory. End result is faster parsing and 0 memory allocation.

* `PersonalTable` objects have been improved with new API methods to check if a species+form can exist in the game.
* `IEncounterTemplate` objects have been improved to indicate the `EntityContext` they originate in (similar to `Generation`).
* Some APIs have been extended to accept `Span<T>` instead of Array/IEnumerable
2022-08-03 16:15:27 -07:00

208 lines
7.2 KiB
C#

using System;
using static PKHeX.Core.GameVersion;
namespace PKHeX.Core;
public sealed class EvolutionGroup8 : IEvolutionGroup
{
public static readonly EvolutionGroup8 Instance = new();
private static readonly EvolutionTree Tree8 = EvolutionTree.Evolves8;
private static readonly EvolutionTree Tree8a = EvolutionTree.Evolves8a;
private static readonly EvolutionTree Tree8b = EvolutionTree.Evolves8b;
private const int MaxSpecies = Legal.MaxSpeciesID_8a;
private const int Generation = 8;
public IEvolutionGroup? GetNext(PKM pk, EvolutionOrigin enc) => null;
public IEvolutionGroup? GetPrevious(PKM pk, EvolutionOrigin enc)
{
if (enc.Generation >= Generation)
return null;
if ((GameVersion)enc.Version is GP or GE or GG or GO)
return EvolutionGroup7b.Instance;
return EvolutionGroup7.Instance;
}
public bool Append(PKM pk, EvolutionHistory history, ref ReadOnlySpan<EvoCriteria> chain, EvolutionOrigin enc)
{
if (chain.Length == 0)
return false;
var swsh = Append(pk, chain, enc, PersonalTable.SWSH, Tree8 , ref history.Gen8 );
var pla = Append(pk, chain, enc, PersonalTable.LA , Tree8a, ref history.Gen8a);
var bdsp = Append(pk, chain, enc, PersonalTable.BDSP, Tree8b, ref history.Gen8b);
if (!(swsh || pla || bdsp))
return false;
// Block BD/SP transfers that are impossible
BlockBDSP(history, enc);
if (!pk.IsUntraded)
CrossPropagate(history);
chain = GetMaxChain(history);
return chain.Length != 0;
}
private static void BlockBDSP(EvolutionHistory history, EvolutionOrigin enc)
{
var bdsp = history.Gen8b;
if (bdsp.Length == 0)
return;
// Spinda and Nincada cannot transfer in or out as the current species.
// Remove them from their non-origin game evolution chains.
var last = bdsp[^1];
if (last.Species == (int)Species.Nincada)
RemoveIfSpecies(history, enc);
else if (last.Species == (int)Species.Spinda)
RemoveIfSpecies(history, enc);
static void RemoveIfSpecies(EvolutionHistory history, EvolutionOrigin enc)
{
var wasBDSP = BDSP.Contains(enc.Version);
ref var evos = ref wasBDSP ? ref history.Gen8 : ref history.Gen8b;
evos = evos.Length < 2 ? Array.Empty<EvoCriteria>() : evos.AsSpan(0, evos.Length - 1).ToArray();
}
}
private static ReadOnlySpan<EvoCriteria> GetMaxChain(EvolutionHistory history)
{
var arr0 = history.Gen8;
var arr1 = history.Gen8a;
var arr2 = history.Gen8b;
if (arr0.Length >= arr1.Length && arr0.Length >= arr2.Length)
return arr0;
if (arr1.Length >= arr2.Length)
return arr1;
return arr2;
}
private static void CrossPropagate(EvolutionHistory history)
{
var arr0 = history.Gen8;
var arr1 = history.Gen8a;
var arr2 = history.Gen8b;
ReplaceIfBetter(arr0, arr1, arr2);
ReplaceIfBetter(arr1, arr0, arr2);
ReplaceIfBetter(arr2, arr0, arr1);
}
private static void ReplaceIfBetter(Span<EvoCriteria> local, ReadOnlySpan<EvoCriteria> other1, ReadOnlySpan<EvoCriteria> other2)
{
for (int i = 0; i < local.Length; i++)
{
ReplaceIfBetter(local, other1, i);
ReplaceIfBetter(local, other2, i);
}
}
private static void ReplaceIfBetter(Span<EvoCriteria> local, ReadOnlySpan<EvoCriteria> other, int parentIndex)
{
// Replace the evolution entry if another connected game has a better evolution method (different min/max).
var native = local[parentIndex];
// Check if the evo is in the other game; if not, we're done here.
var index = IndexOfSpecies(other, native.Species);
if (index == -1)
return;
var alt = other[index];
if (alt.LevelMin < native.LevelMin || alt.LevelMax > native.LevelMax)
local[parentIndex] = alt;
}
private static int IndexOfSpecies(ReadOnlySpan<EvoCriteria> evos, ushort species)
{
// Returns the index of the first evo that matches the species
for (int i = 0; i < evos.Length; i++)
{
if (evos[i].Species == species)
return i;
}
return -1;
}
private static bool Append<T>(PKM pk, ReadOnlySpan<EvoCriteria> chain, EvolutionOrigin enc, T pt, EvolutionTree tree, ref EvoCriteria[] dest) where T : IPersonalTable
{
// Get the first evolution in the chain that can be present in this group
var any = GetFirstEvolution(pt, chain, out var evo);
if (!any)
return false;
// Get the evolution tree from this group and get the new chain from it.
var criteria = enc with { LevelMax = evo.LevelMax, LevelMin = (byte)pk.Met_Level };
var local = GetInitialChain(pk, criteria, evo.Species, evo.Form, tree);
// Revise the tree
var revised = Prune(local);
// Set the tree to the history field
dest = revised;
return revised.Length != 0;
}
public EvoCriteria[] GetInitialChain(PKM pk, EvolutionOrigin enc, ushort species, byte form)
{
if (!GetPreferredGroup(species, form, out var group))
return Array.Empty<EvoCriteria>();
var tree = GetTree(group);
return GetInitialChain(pk, enc, species, form, tree);
}
private static EvoCriteria[] GetInitialChain(PKM pk, EvolutionOrigin enc, ushort species, byte form, EvolutionTree tree)
{
if (species is (int)Species.Dialga or (int)Species.Palkia or (int)Species.Arceus)
form = 0; // PLA forms; play nice for yielding SW/SH context
return tree.GetExplicitLineage(species, form, pk, enc.LevelMin, enc.LevelMax, MaxSpecies, enc.SkipChecks, enc.Species);
}
private static EvolutionTree GetTree(PreferredGroup group) => group switch
{
PreferredGroup.BDSP => Tree8b,
PreferredGroup.LA => Tree8a,
_ => Tree8,
};
private static bool GetPreferredGroup(ushort species, byte form, out PreferredGroup result)
{
if (PersonalTable.LA.IsPresentInGame(species, form))
result = PreferredGroup.LA;
else if (PersonalTable.SWSH.IsPresentInGame(species, form))
result = PreferredGroup.SWSH;
else if (PersonalTable.BDSP.IsPresentInGame(species, form))
result = PreferredGroup.BDSP;
else
result = PreferredGroup.None;
return result != 0;
}
private static EvoCriteria[] Prune(EvoCriteria[] chain) => chain;
private enum PreferredGroup
{
None,
LA,
SWSH,
BDSP,
}
private static bool GetFirstEvolution<T>(T pt, ReadOnlySpan<EvoCriteria> chain, out EvoCriteria result) where T : IPersonalTable
{
foreach (var evo in chain)
{
// If the evo can't exist in the game, it must be a future evolution.
if (!pt.IsPresentInGame(evo.Species, evo.Form))
continue;
result = evo;
return true;
}
result = default;
return false;
}
}