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PKHeX/PKHeX.Core/Legality/Encounters/Verifiers/VerifyRelearnMoves.cs

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Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
using System;
using System.Collections.Generic;
using System.Linq;
using static PKHeX.Core.LegalityCheckStrings;
using static PKHeX.Core.LegalityAnalysis;
namespace PKHeX.Core
{
add more pkhex.core xml documentation adds a bunch of documentation useful for those unfamiliar with the core library
2017-10-24 06:12:58 +00:00
/// <summary>
/// Logic to verify the current <see cref="PKM.RelearnMoves"/>.
/// </summary>
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
public static class VerifyRelearnMoves
{
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
private static readonly int[] RelearnEmpty = new int[4];
Refactoring mostly renaming things, includes a little bit of added sugar and splitting methods to simplify the codebase. all methods are now PascalCase
2017-06-18 01:37:19 +00:00
public static CheckResult[] VerifyRelearn(PKM pkm, LegalInfo info)
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
{
Refactoring change some expressions for better perf/readability
2020-07-19 22:48:45 +00:00
if (info.Generation < 6 || (pkm is IBattleVersion v && v.BattleVersion != 0))
Refactoring mostly renaming things, includes a little bit of added sugar and splitting methods to simplify the codebase. all methods are now PascalCase
2017-06-18 01:37:19 +00:00
return VerifyRelearnNone(pkm, info);
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
Use some c#8 sugar static local functions switch expressions using usings :) nullable next?
2019-10-08 01:40:09 +00:00
return info.EncounterMatch switch
Misc fixes/updates Fix crystal lacking met level<->current level checks Fix met location loading for gen2 saves (gen7 sav loaded gen1/2 pkm -> load gen2 sav) refactor some logic with pattern matching/consistent method names
2018-01-26 17:19:20 +00:00
{
Make Relearn array for encounters readonly No change em
2020-01-19 00:31:24 +00:00
IRelearn s when s.Relearn.Count > 0 => VerifyRelearnSpecifiedMoveset(pkm, info, s.Relearn),
Use some c#8 sugar static local functions switch expressions using usings :) nullable next?
2019-10-08 01:40:09 +00:00
EncounterEgg e => VerifyRelearnEggBase(pkm, info, e),
Offload EncounterSlot loading logic to reduce complexity (#2980) * Rework gen1 slot loading Slot templates are precomputed from ROM data and just loaded straight in, with tight coupling to the encounter area (grouped by slot types). * Revise fuzzy met check for underleveled wild evos Example: Level 23 poliwhirl in RBY as a level 50 poliwhirl, will assume the chain is 25-50 for poliwhirl (as poliwag evolves at 25). Instead of revising the origin chain, just ignore the evo min level in the comparison. Previous commit fixed it for gen1. * Rework gen2-4 slot loading Gen4 not finished, Type Encounter data and some edge encounters not recognizing yet... * Add feebas slots for old/good encounters * Begin moving properties Great news! Gen5-7 need to be de-dumbed like Gen1-4. Then I can remove the bang (!) on the Area accessor and ensure that it's never null! * Split off XD pokespot slot encounter table type * Set area in constructor * Deduplicate g3 roaming encounters * Deduplicate xd encounter locations (rebattle) Only difference is met location; no need to create 500 extra encounter objects. A simple contains check is ok (rarely in gen3 format). * Make all slots have a readonly reference to their parent area * Minor clean * Remove "Safari" slot type flag Can be determined via other means (generation-location), allows us to reduce the size of SlotType member to a byte Output of slot binaries didn't preserve the Safari flag anyway. * Update SlotType.cs * Handle type encounters correctly * Merge safari area into regular xy area * Merge dexnav accessor logic * fix some logic so that tests pass again rearrange g5 dw init to be done outside of static constructor (initializer instead) PIDGenerator: friend safari slots now generate with required flawless IV count * Add cianwood tentacool gift encounter * Remove unnecessary abstractions Fake area just returned a slot; since Slots have a non-null reference to the area, we can just return the slot and use the API to grab a list of possible slots for the chain. Increase restrictiveness of location/type get-set operations * Minor tweaks, pass parameters DexNav observed state isn't necessary to use, only need to see if it's possible to dexnav. Now that we have metadata for slots, we can. * Remove unused legality tables
2020-08-30 17:23:22 +00:00
EncounterSlot6AO z when pkm.RelearnMove1 != 0 && z.CanDexNav => VerifyRelearnDexNav(pkm, info),
Use some c#8 sugar static local functions switch expressions using usings :) nullable next?
2019-10-08 01:40:09 +00:00
_ => VerifyRelearnNone(pkm, info)
};
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
}
Extract EvoBase and MoveList from Core These are really old bloated parts of the original legality checking logic; separating for now to rewrite.
2020-06-21 00:44:05 +00:00
private static CheckResult[] VerifyRelearnSpecifiedMoveset(PKM pkm, LegalInfo info, IReadOnlyList<int> required)
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
{
CheckResult[] res = new CheckResult[4];
Extract EvoBase and MoveList from Core These are really old bloated parts of the original legality checking logic; separating for now to rewrite.
2020-06-21 00:44:05 +00:00
int[] relearn = pkm.RelearnMoves;
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
for (int i = 0; i < 4; i++)
Misc style & minor tweaks Remove move combobox flicker hack (no longer necessary) Add more Array.Empty usages cache mysterygift sizes seal some classes no functionality changes
2018-08-03 03:11:42 +00:00
{
Extract EvoBase and MoveList from Core These are really old bloated parts of the original legality checking logic; separating for now to rewrite.
2020-06-21 00:44:05 +00:00
res[i] = relearn[i] != required[i]
? new CheckResult(Severity.Invalid, string.Format(LMoveFExpect_0, MoveStrings[required[i]]), CheckIdentifier.RelearnMove)
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
: new CheckResult(CheckIdentifier.RelearnMove);
Misc style & minor tweaks Remove move combobox flicker hack (no longer necessary) Add more Array.Empty usages cache mysterygift sizes seal some classes no functionality changes
2018-08-03 03:11:42 +00:00
}
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
Extract EvoBase and MoveList from Core These are really old bloated parts of the original legality checking logic; separating for now to rewrite.
2020-06-21 00:44:05 +00:00
info.RelearnBase = required;
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
return res;
}
Misc style & minor tweaks Remove move combobox flicker hack (no longer necessary) Add more Array.Empty usages cache mysterygift sizes seal some classes no functionality changes
2018-08-03 03:11:42 +00:00
Refactoring mostly renaming things, includes a little bit of added sugar and splitting methods to simplify the codebase. all methods are now PascalCase
2017-06-18 01:37:19 +00:00
private static CheckResult[] VerifyRelearnDexNav(PKM pkm, LegalInfo info)
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
{
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
var result = new CheckResult[4];
Extract EvoBase and MoveList from Core These are really old bloated parts of the original legality checking logic; separating for now to rewrite.
2020-06-21 00:44:05 +00:00
int[] relearn = pkm.RelearnMoves;
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
// DexNav Pokémon can have 1 random egg move as a relearn move.
Extract EvoBase and MoveList from Core These are really old bloated parts of the original legality checking logic; separating for now to rewrite.
2020-06-21 00:44:05 +00:00
var baseSpec = EvoBase.GetBaseSpecies(pkm);
result[0] = !MoveList.GetValidRelearn(pkm, baseSpec.Species, baseSpec.Form, true).Contains(relearn[0])
Update legality check message string style V### names weren't enjoyable to work with; use similar verbose style as the program message strings. updating the translation files with the remapped variable names shortly remap list: https://pastebin.com/jybkVDAK
2018-09-01 21:11:12 +00:00
? new CheckResult(Severity.Invalid, LMoveRelearnDexNav, CheckIdentifier.RelearnMove)
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
: new CheckResult(CheckIdentifier.RelearnMove);
// All other relearn moves must be empty.
for (int i = 1; i < 4; i++)
Misc style & minor tweaks Remove move combobox flicker hack (no longer necessary) Add more Array.Empty usages cache mysterygift sizes seal some classes no functionality changes
2018-08-03 03:11:42 +00:00
{
Extract EvoBase and MoveList from Core These are really old bloated parts of the original legality checking logic; separating for now to rewrite.
2020-06-21 00:44:05 +00:00
result[i] = relearn[i] != 0
Update legality check message string style V### names weren't enjoyable to work with; use similar verbose style as the program message strings. updating the translation files with the remapped variable names shortly remap list: https://pastebin.com/jybkVDAK
2018-09-01 21:11:12 +00:00
? new CheckResult(Severity.Invalid, LMoveRelearnNone, CheckIdentifier.RelearnMove)
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
: new CheckResult(CheckIdentifier.RelearnMove);
Misc style & minor tweaks Remove move combobox flicker hack (no longer necessary) Add more Array.Empty usages cache mysterygift sizes seal some classes no functionality changes
2018-08-03 03:11:42 +00:00
}
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
// Update the relearn base moves if the first relearn move is okay.
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
info.RelearnBase = result[0].Valid
Extract EvoBase and MoveList from Core These are really old bloated parts of the original legality checking logic; separating for now to rewrite.
2020-06-21 00:44:05 +00:00
? relearn
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
: RelearnEmpty;
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
return result;
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
}
Misc style & minor tweaks Remove move combobox flicker hack (no longer necessary) Add more Array.Empty usages cache mysterygift sizes seal some classes no functionality changes
2018-08-03 03:11:42 +00:00
Refactoring mostly renaming things, includes a little bit of added sugar and splitting methods to simplify the codebase. all methods are now PascalCase
2017-06-18 01:37:19 +00:00
private static CheckResult[] VerifyRelearnNone(PKM pkm, LegalInfo info)
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
{
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
var result = new CheckResult[4];
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
int[] RelearnMoves = pkm.RelearnMoves;
// No relearn moves should be present.
for (int i = 0; i < 4; i++)
Misc style & minor tweaks Remove move combobox flicker hack (no longer necessary) Add more Array.Empty usages cache mysterygift sizes seal some classes no functionality changes
2018-08-03 03:11:42 +00:00
{
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
result[i] = RelearnMoves[i] != 0
Update legality check message string style V### names weren't enjoyable to work with; use similar verbose style as the program message strings. updating the translation files with the remapped variable names shortly remap list: https://pastebin.com/jybkVDAK
2018-09-01 21:11:12 +00:00
? new CheckResult(Severity.Invalid, LMoveRelearnNone, CheckIdentifier.RelearnMove)
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
: new CheckResult(CheckIdentifier.RelearnMove);
Misc style & minor tweaks Remove move combobox flicker hack (no longer necessary) Add more Array.Empty usages cache mysterygift sizes seal some classes no functionality changes
2018-08-03 03:11:42 +00:00
}
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
info.RelearnBase = RelearnEmpty;
return result;
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
}
Misc style & minor tweaks Remove move combobox flicker hack (no longer necessary) Add more Array.Empty usages cache mysterygift sizes seal some classes no functionality changes
2018-08-03 03:11:42 +00:00
Refactoring mostly renaming things, includes a little bit of added sugar and splitting methods to simplify the codebase. all methods are now PascalCase
2017-06-18 01:37:19 +00:00
private static CheckResult[] VerifyRelearnEggBase(PKM pkm, LegalInfo info, EncounterEgg e)
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
{
int[] RelearnMoves = pkm.RelearnMoves;
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
var result = new CheckResult[4];
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
// Level up moves cannot be inherited if Ditto is the parent
Misc simplifications cache splitbreed species as another class reduce linq usage in evolution validity check reuse egg hatch method
2018-07-04 16:15:20 +00:00
// that means genderless species and male only species except Nidoran and Volbeat (they breed with female nidoran and illumise) could not have level up moves as an egg
Refactoring continued simplification core.cs is pretty much the following: misc one-off junk moveset fetch encounter table fetch evo chain fetch might eventually move things around a bit further for cleanliness so that misc meta junk is the only thing that remains in core.
2018-06-19 04:56:30 +00:00
bool inheritLvlMoves = Legal.GetCanInheritMoves(e.Species);
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
// Obtain level1 moves
Extract EvoBase and MoveList from Core These are really old bloated parts of the original legality checking logic; separating for now to rewrite.
2020-06-21 00:44:05 +00:00
var baseMoves = MoveList.GetBaseEggMoves(pkm, e.Species, e.Form, e.Version, 1);
Refactoring fixes Fix misc refactoring errors Don't early abort gen4->5+ encounter generation (need to check ingame trades for abra/gengar). Can avoid by PID dictionary to check for trades first, but unimplemented. Closes #1377 , not fixing Pokewalker PID mismatch as algorithm needs to be ironed out separately.
2017-08-01 21:55:10 +00:00
int baseCt = Math.Min(4, baseMoves.Length);
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
// Obtain Inherited moves
Extract EvoBase and MoveList from Core These are really old bloated parts of the original legality checking logic; separating for now to rewrite.
2020-06-21 00:44:05 +00:00
var inheritMoves = MoveList.GetValidRelearn(pkm, e.Species, e.Form, inheritLvlMoves, e.Version).ToList();
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
int reqBase = GetRequiredBaseMoves(RelearnMoves, baseMoves, baseCt, inheritMoves);
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
// Check if the required amount of Base Egg Moves are present.
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
FlagBaseEggMoves(result, reqBase, baseMoves, RelearnMoves);
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
// Non-Base moves that can magically appear in the regular movepool
if (Legal.LightBall.Contains(pkm.Species))
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
inheritMoves.Add(344); // Volt Tackle
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
// If any splitbreed moves are invalid, flag accordingly
misc updates use arrays instead of list when capacity known use enums for const decoration remove unnecessary aliases
2018-09-02 02:55:08 +00:00
var splitMoves = e is EncounterEggSplit s
Extract EvoBase and MoveList from Core These are really old bloated parts of the original legality checking logic; separating for now to rewrite.
2020-06-21 00:44:05 +00:00
? MoveList.GetValidRelearn(pkm, s.OtherSpecies, s.Form, inheritLvlMoves, e.Version).ToList()
misc updates use arrays instead of list when capacity known use enums for const decoration remove unnecessary aliases
2018-09-02 02:55:08 +00:00
: (IReadOnlyList<int>)Array.Empty<int>();
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
// Inherited moves appear after the required base moves.
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
// If the pkm is capable of split-species breeding and any inherited move is from the other split scenario, flag accordingly.
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
bool splitInvalid = FlagInvalidInheritedMoves(result, reqBase, RelearnMoves, inheritMoves, splitMoves);
Minor tweaks verify relearn: move split check before method call movelist: don't capture pkm in local method; meowstic ID pkm: flip argument for easier understanding
2020-07-19 23:30:46 +00:00
if (splitInvalid && e is EncounterEggSplit x)
FlagSplitbreedMoves(result, reqBase, x);
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
info.RelearnBase = baseMoves;
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
return result;
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
}
Misc style & minor tweaks Remove move combobox flicker hack (no longer necessary) Add more Array.Empty usages cache mysterygift sizes seal some classes no functionality changes
2018-08-03 03:11:42 +00:00
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
private static void FlagBaseEggMoves(CheckResult[] result, int required, IReadOnlyList<int> baseMoves, IReadOnlyList<int> RelearnMoves)
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
{
for (int i = 0; i < required; i++)
{
if (!baseMoves.Contains(RelearnMoves[i]))
{
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
FlagRelearnMovesMissing(result, required, baseMoves, i);
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
return;
}
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
result[i] = new CheckResult(Severity.Valid, LMoveRelearnEgg, CheckIdentifier.RelearnMove);
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
}
}
Misc style & minor tweaks Remove move combobox flicker hack (no longer necessary) Add more Array.Empty usages cache mysterygift sizes seal some classes no functionality changes
2018-08-03 03:11:42 +00:00
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
private static void FlagRelearnMovesMissing(CheckResult[] result, int required, IReadOnlyList<int> baseMoves, int start)
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
{
for (int z = start; z < required; z++)
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
result[z] = new CheckResult(Severity.Invalid, LMoveRelearnEggMissing, CheckIdentifier.RelearnMove);
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
// provide the list of suggested base moves for the last required slot
Refactoring discards, Array.Find over FirstOrDefault
2018-05-12 15:41:23 +00:00
string em = string.Join(", ", GetMoveNames(baseMoves));
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
result[required - 1].Comment += string.Format(Environment.NewLine + LMoveRelearnFExpect_0, em);
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
}
Misc style & minor tweaks Remove move combobox flicker hack (no longer necessary) Add more Array.Empty usages cache mysterygift sizes seal some classes no functionality changes
2018-08-03 03:11:42 +00:00
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
private static bool FlagInvalidInheritedMoves(CheckResult[] result, int required, IReadOnlyList<int> RelearnMoves, IReadOnlyList<int> inheritMoves, IReadOnlyList<int> splitMoves)
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
{
bool splitInvalid = false;
Misc simplifications cache splitbreed species as another class reduce linq usage in evolution validity check reuse egg hatch method
2018-07-04 16:15:20 +00:00
bool isSplit = splitMoves.Count > 0;
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
for (int i = required; i < 4; i++)
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
{
if (RelearnMoves[i] == 0) // empty
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
result[i] = new CheckResult(Severity.Valid, LMoveSourceEmpty, CheckIdentifier.RelearnMove);
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
else if (inheritMoves.Contains(RelearnMoves[i])) // inherited
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
result[i] = new CheckResult(Severity.Valid, LMoveSourceRelearn, CheckIdentifier.RelearnMove);
Misc simplifications cache splitbreed species as another class reduce linq usage in evolution validity check reuse egg hatch method
2018-07-04 16:15:20 +00:00
else if (isSplit && splitMoves.Contains(RelearnMoves[i])) // inherited
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
splitInvalid = true;
else // not inheritable, flag
Misc updates reduce some allocs, clearer names/enum usage
2018-12-28 04:24:24 +00:00
result[i] = new CheckResult(Severity.Invalid, LMoveRelearnInvalid, CheckIdentifier.RelearnMove);
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
}
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
return splitInvalid;
}
Misc style & minor tweaks Remove move combobox flicker hack (no longer necessary) Add more Array.Empty usages cache mysterygift sizes seal some classes no functionality changes
2018-08-03 03:11:42 +00:00
Minor tweaks verify relearn: move split check before method call movelist: don't capture pkm in local method; meowstic ID pkm: flip argument for easier understanding
2020-07-19 23:30:46 +00:00
private static void FlagSplitbreedMoves(CheckResult[] res, int required, EncounterEggSplit x)
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
{
Rework GetBaseSpecies to return EvoCriteria #2452
2019-11-19 04:26:11 +00:00
var other = x.OtherSpecies;
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
for (int i = required; i < 4; i++)
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
{
Minor clean Nullability annotations and some logic simplification
2020-09-06 18:24:54 +00:00
// ReSharper disable once ConditionIsAlwaysTrueOrFalse
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
if (res[i] != null)
continue;
Minor tweaks verify relearn: move split check before method call movelist: don't capture pkm in local method; meowstic ID pkm: flip argument for easier understanding
2020-07-19 23:30:46 +00:00
string message = string.Format(LMoveEggFIncompatible0_1, SpeciesStrings[other], SpeciesStrings[x.Species]);
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
res[i] = new CheckResult(Severity.Invalid, message, CheckIdentifier.RelearnMove);
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
}
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
}
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
private static int GetRequiredBaseMoves(int[] RelearnMoves, IReadOnlyList<int> baseMoves, int baseCt, IReadOnlyList<int> inheritMoves)
{
Misc changes Revert linq chain Closes #1987 change encountermatch comparison (never null), add comparison for vc output remove unused strings (will get removed from translation files in later update)
2018-06-10 07:26:33 +00:00
var inherited = RelearnMoves.Where(m => m != 0 && (!baseMoves.Contains(m) || inheritMoves.Contains(m))).ToList();
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
int inheritCt = inherited.Count;
// Get required amount of base moves
Cleanup union / count usages remove unnecessary stuff
2017-10-07 04:03:23 +00:00
int unique = baseMoves.Union(inherited).Count();
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
int reqBase = inheritCt == 4 || baseCt + inheritCt > 4 ? 4 - inheritCt : baseCt;
Cleanup union / count usages remove unnecessary stuff
2017-10-07 04:03:23 +00:00
if (RelearnMoves.Count(m => m != 0) < Math.Min(4, baseMoves.Count))
Refactoring Add more docs, clearer code Fixes gen2 national park / route 14 swapped strings in EncounterVerifier
2017-08-01 00:09:16 +00:00
reqBase = Math.Min(4, unique);
return reqBase;
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
}
}
}
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