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Pokemon_server / dist /sim /team-validator.js
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"use strict";
var __defProp = Object.defineProperty;
var __getOwnPropDesc = Object.getOwnPropertyDescriptor;
var __getOwnPropNames = Object.getOwnPropertyNames;
var __hasOwnProp = Object.prototype.hasOwnProperty;
var __export = (target, all) => {
for (var name in all)
__defProp(target, name, { get: all[name], enumerable: true });
};
var __copyProps = (to, from, except, desc) => {
if (from && typeof from === "object" || typeof from === "function") {
for (let key of __getOwnPropNames(from))
if (!__hasOwnProp.call(to, key) && key !== except)
__defProp(to, key, { get: () => from[key], enumerable: !(desc = __getOwnPropDesc(from, key)) || desc.enumerable });
}
return to;
};
var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod);
var team_validator_exports = {};
__export(team_validator_exports, {
PokemonSources: () => PokemonSources,
TeamValidator: () => TeamValidator
});
module.exports = __toCommonJS(team_validator_exports);
var import_dex = require("./dex");
var import_utils = require("../lib/utils");
var import_tags = require("../data/tags");
var import_teams = require("./teams");
var import_prng = require("./prng");
/**
* Team Validator
* Pokemon Showdown - http://pokemonshowdown.com/
*
* Handles team validation, and specifically learnset checking.
*
* @license MIT
*/
class PokemonSources {
constructor(sourcesBefore = 0, sourcesAfter = 0) {
this.sources = [];
this.sourcesBefore = sourcesBefore;
this.sourcesAfter = sourcesAfter;
this.isHidden = null;
this.limitedEggMoves = void 0;
this.moveEvoCarryCount = 0;
this.dreamWorldMoveCount = 0;
}
size() {
if (this.sourcesBefore)
return Infinity;
return this.sources.length;
}
add(source, limitedEggMove) {
if (this.sources[this.sources.length - 1] !== source)
this.sources.push(source);
if (limitedEggMove) {
if (source.substr(0, 3) === "1ET") {
this.tradebackLimitedEggMoves = [limitedEggMove];
}
}
if (limitedEggMove && this.limitedEggMoves !== null) {
this.limitedEggMoves = [limitedEggMove];
} else if (limitedEggMove === null) {
this.limitedEggMoves = null;
}
}
addGen(sourceGen) {
this.sourcesBefore = Math.max(this.sourcesBefore, sourceGen);
this.limitedEggMoves = null;
}
minSourceGen() {
if (this.eventOnlyMinSourceGen)
return this.eventOnlyMinSourceGen;
if (this.sourcesBefore)
return this.sourcesAfter || 1;
let min = 10;
for (const source of this.sources) {
const sourceGen = parseInt(source.charAt(0));
if (sourceGen < min)
min = sourceGen;
}
if (min === 10)
return 0;
return min;
}
maxSourceGen() {
let max = this.sourcesBefore;
for (const source of this.sources) {
const sourceGen = parseInt(source.charAt(0));
if (sourceGen > max)
max = sourceGen;
}
return max;
}
intersectWith(other) {
if (this.pomegEventEgg && other.pomegEggMoves) {
const newSources = [];
for (const source of other.sources) {
newSources.push(source.substr(0, 2) === "3E" ? this.pomegEventEgg : source);
}
other.sources = newSources;
} else if (other.pomegEventEgg && this.pomegEventEgg !== null) {
const newSources = [];
for (const source of this.sources) {
newSources.push(source.substr(0, 2) === "3E" ? other.pomegEventEgg : source);
}
this.sources = newSources;
this.pomegEventEgg = other.pomegEventEgg;
} else if (!other.pomegEggMoves && !other.sourcesBefore) {
this.pomegEventEgg = null;
}
if (other.sourcesBefore || this.sourcesBefore) {
if (other.sourcesBefore > this.sourcesBefore) {
for (const source of this.sources) {
const sourceGen = parseInt(source.charAt(0));
if (sourceGen <= other.sourcesBefore) {
other.sources.push(source);
}
}
} else if (this.sourcesBefore > other.sourcesBefore) {
for (const source of other.sources) {
const sourceGen = parseInt(source.charAt(0));
if (sourceGen <= this.sourcesBefore) {
this.sources.push(source);
}
}
}
this.sourcesBefore = Math.min(other.sourcesBefore, this.sourcesBefore);
}
if (this.sources.length) {
if (other.sources.length) {
const sourcesSet = new Set(other.sources);
const intersectSources = this.sources.filter((source) => sourcesSet.has(source));
this.sources = intersectSources;
} else {
this.sources = [];
}
}
if (other.restrictedMove && other.restrictedMove !== this.restrictedMove) {
if (this.restrictedMove) {
this.sources = [];
this.sourcesBefore = 0;
} else {
this.restrictedMove = other.restrictedMove;
}
}
if (other.limitedEggMoves) {
if (!this.limitedEggMoves) {
this.limitedEggMoves = other.limitedEggMoves;
} else {
this.limitedEggMoves.push(...other.limitedEggMoves);
}
}
if (other.possiblyLimitedEggMoves) {
if (!this.possiblyLimitedEggMoves) {
this.possiblyLimitedEggMoves = other.possiblyLimitedEggMoves;
} else {
this.possiblyLimitedEggMoves.push(...other.possiblyLimitedEggMoves);
}
}
if (other.tradebackLimitedEggMoves) {
if (!this.tradebackLimitedEggMoves) {
this.tradebackLimitedEggMoves = other.tradebackLimitedEggMoves;
} else {
this.tradebackLimitedEggMoves.push(...other.tradebackLimitedEggMoves);
}
}
if (other.levelUpEggMoves) {
if (!this.levelUpEggMoves) {
this.levelUpEggMoves = other.levelUpEggMoves;
} else {
this.levelUpEggMoves.push(...other.levelUpEggMoves);
}
}
if (other.pomegEggMoves) {
if (!this.pomegEggMoves) {
this.pomegEggMoves = other.pomegEggMoves;
} else {
this.pomegEggMoves.push(...other.pomegEggMoves);
}
}
if (other.learnsetDomain) {
if (!this.learnsetDomain) {
this.learnsetDomain = other.learnsetDomain;
} else {
this.learnsetDomain.filter((source) => other.learnsetDomain?.includes(source));
}
}
if (this.possiblyLimitedEggMoves && !this.sourcesBefore) {
const eggSources = this.sources.filter((source) => source.charAt(1) === "E");
let minEggGen = parseInt(eggSources[0]);
for (const source of eggSources) {
minEggGen = Math.min(minEggGen, parseInt(source.charAt(0)));
}
if (minEggGen) {
for (const eggMoveAndGen of this.possiblyLimitedEggMoves) {
if (!this.limitedEggMoves)
this.limitedEggMoves = [];
if (parseInt(eggMoveAndGen.charAt(0)) < minEggGen) {
const eggMove = (0, import_dex.toID)(eggMoveAndGen.substr(1));
if (!this.limitedEggMoves.includes(eggMove))
this.limitedEggMoves.push(eggMove);
}
}
}
}
let eggTradebackLegal = false;
for (const source of this.sources) {
if (source.substr(0, 3) === "1ET") {
eggTradebackLegal = true;
break;
}
}
if (!eggTradebackLegal && this.tradebackLimitedEggMoves) {
for (const eggMove of this.tradebackLimitedEggMoves) {
if (!this.limitedEggMoves)
this.limitedEggMoves = [];
if (!this.limitedEggMoves.includes(eggMove))
this.limitedEggMoves.push(eggMove);
}
}
this.moveEvoCarryCount += other.moveEvoCarryCount;
this.dreamWorldMoveCount += other.dreamWorldMoveCount;
if (other.sourcesAfter > this.sourcesAfter)
this.sourcesAfter = other.sourcesAfter;
if (other.isHidden)
this.isHidden = true;
}
}
class TeamValidator {
constructor(format, dex = import_dex.Dex) {
this.format = dex.formats.get(format);
if (this.format.effectType !== "Format") {
throw new Error(`format should be a 'Format', but was a '${this.format.effectType}'`);
}
this.dex = dex.forFormat(this.format);
this.gen = this.dex.gen;
this.ruleTable = this.dex.formats.getRuleTable(this.format);
this.minSourceGen = this.ruleTable.minSourceGen;
this.toID = import_dex.toID;
}
validateTeam(team, options = {}) {
if (team && this.format.validateTeam) {
return this.format.validateTeam.call(this, team, options) || null;
}
return this.baseValidateTeam(team, options);
}
baseValidateTeam(team, options = {}) {
const format = this.format;
const dex = this.dex;
let problems = [];
const ruleTable = this.ruleTable;
if (format.team) {
if (team) {
return [
`This format doesn't let you use your own team.`,
`If you're not using a custom client, please report this as a bug. If you are, remember to use \`/utm null\` before starting a game in this format.`
];
}
const testTeamSeed = import_prng.PRNG.generateSeed();
try {
const testTeamGenerator = import_teams.Teams.getGenerator(format, testTeamSeed);
testTeamGenerator.getTeam(options);
} catch (e) {
return [
`${format.name}'s team generator (${format.team}) failed using these rules and seed (${testTeamSeed}):-`,
`${e}`
];
}
return null;
}
if (!team) {
return [
`This format requires you to use your own team.`,
`If you're not using a custom client, please report this as a bug.`
];
}
if (!Array.isArray(team)) {
throw new Error(`Invalid team data`);
}
if (team.length < ruleTable.minTeamSize) {
problems.push(`You must bring at least ${ruleTable.minTeamSize} Pok\xE9mon (your team has ${team.length}).`);
}
if (team.length > ruleTable.maxTeamSize) {
return [`You may only bring up to ${ruleTable.maxTeamSize} Pok\xE9mon (your team has ${team.length}).`];
}
if (team.length > 24) {
problems.push(`Your team has more than than 24 Pok\xE9mon, which the simulator can't handle.`);
return problems;
}
const teamHas = {};
let lgpeStarterCount = 0;
let deoxysType;
for (const set of team) {
if (!set)
return [`You sent invalid team data. If you're not using a custom client, please report this as a bug.`];
let setProblems = null;
if (options.skipSets?.[set.name]) {
for (const i in options.skipSets[set.name]) {
teamHas[i] = (teamHas[i] || 0) + 1;
}
} else {
setProblems = (format.validateSet || this.validateSet).call(this, set, teamHas);
}
if (set.species === "Pikachu-Starter" || set.species === "Eevee-Starter") {
lgpeStarterCount++;
if (lgpeStarterCount === 2 && ruleTable.isBanned("nonexistent")) {
problems.push(`You can only have one of Pikachu-Starter or Eevee-Starter on a team.`);
}
}
if (dex.gen === 3 && set.species.startsWith("Deoxys")) {
if (!deoxysType) {
deoxysType = set.species;
} else if (deoxysType !== set.species && ruleTable.isBanned("nonexistent")) {
return [
`You cannot have more than one type of Deoxys forme.`,
`(Each game in Gen 3 supports only one forme of Deoxys.)`
];
}
}
if (setProblems) {
problems = problems.concat(setProblems);
}
if (options.removeNicknames) {
const useCrossSpeciesNicknames = format.name.includes("Cross Evolution") || ruleTable.has("franticfusionsmod");
const species = dex.species.get(set.species);
let crossSpecies;
if (useCrossSpeciesNicknames && (crossSpecies = dex.species.get(set.name)).exists) {
set.name = crossSpecies.name;
} else {
set.name = species.baseSpecies;
if (species.baseSpecies === "Unown")
set.species = "Unown";
}
}
}
for (const [rule, source, limit, bans] of ruleTable.complexTeamBans) {
let count = 0;
for (const ban of bans) {
if (teamHas[ban] > 0) {
count += limit ? teamHas[ban] : 1;
}
}
if (limit && count > limit) {
const clause = source ? ` by ${source}` : ``;
problems.push(`You are limited to ${limit} of ${rule}${clause}.`);
} else if (!limit && count >= bans.length) {
const clause = source ? ` by ${source}` : ``;
problems.push(`Your team has the combination of ${rule}, which is banned${clause}.`);
}
}
for (const rule of ruleTable.keys()) {
if ("!+-*".includes(rule.charAt(0)))
continue;
const subformat = dex.formats.get(rule);
if (subformat.onValidateTeam && ruleTable.has(subformat.id)) {
problems = problems.concat(subformat.onValidateTeam.call(this, team, format, teamHas) || []);
}
}
if (format.onValidateTeam) {
problems = problems.concat(format.onValidateTeam.call(this, team, format, teamHas) || []);
}
if (!problems.length)
return null;
return problems;
}
getEventOnlyData(species, noRecurse) {
const dex = this.dex;
const learnset = dex.species.getLearnsetData(species.id);
if (!learnset?.eventOnly) {
if (noRecurse)
return null;
return this.getEventOnlyData(dex.species.get(species.prevo), true);
}
if (!learnset.eventData && species.forme) {
return this.getEventOnlyData(dex.species.get(species.baseSpecies), true);
}
if (!learnset.eventData) {
throw new Error(`Event-only species ${species.name} has no eventData table`);
}
return { species, eventData: learnset.eventData };
}
getValidationSpecies(set) {
const dex = this.dex;
const ruleTable = this.ruleTable;
const species = dex.species.get(set.species);
const item = dex.items.get(set.item);
const ability = dex.abilities.get(set.ability);
let outOfBattleSpecies = species;
let tierSpecies = species;
if (ability.id === "battlebond" && (0, import_dex.toID)(species.baseSpecies) === "greninja") {
outOfBattleSpecies = dex.species.get("greninjabond");
if (ruleTable.has("obtainableformes")) {
tierSpecies = outOfBattleSpecies;
}
}
if (ability.id === "owntempo" && (0, import_dex.toID)(species.baseSpecies) === "rockruff") {
outOfBattleSpecies = dex.species.get("rockruffdusk");
if (ruleTable.has("obtainableformes")) {
tierSpecies = outOfBattleSpecies;
}
}
if (ruleTable.has("obtainableformes")) {
const canMegaEvo = dex.gen <= 7 || ruleTable.has("+pokemontag:past");
if (item.megaEvolves === species.name) {
if (!item.megaStone)
throw new Error(`Item ${item.name} has no base form for mega evolution`);
tierSpecies = dex.species.get(item.megaStone);
} else if (item.id === "redorb" && species.id === "groudon") {
tierSpecies = dex.species.get("Groudon-Primal");
} else if (item.id === "blueorb" && species.id === "kyogre") {
tierSpecies = dex.species.get("Kyogre-Primal");
} else if (canMegaEvo && species.id === "rayquaza" && set.moves.map(import_dex.toID).includes("dragonascent") && !ruleTable.has("megarayquazaclause")) {
tierSpecies = dex.species.get("Rayquaza-Mega");
} else if (item.id === "rustedsword" && species.id === "zacian") {
tierSpecies = dex.species.get("Zacian-Crowned");
} else if (item.id === "rustedshield" && species.id === "zamazenta") {
tierSpecies = dex.species.get("Zamazenta-Crowned");
}
}
return { outOfBattleSpecies, tierSpecies };
}
validateSet(set, teamHas) {
const format = this.format;
const dex = this.dex;
const ruleTable = this.ruleTable;
let problems = [];
if (!set) {
return [`This is not a Pokemon.`];
}
let species = dex.species.get(set.species);
set.species = species.name;
if (set.species.toLowerCase().endsWith("-gmax") && this.format.id !== "gen8megamax") {
set.species = set.species.slice(0, -5);
species = dex.species.get(set.species);
if (set.name?.endsWith("-Gmax"))
set.name = species.baseSpecies;
set.gigantamax = true;
}
if (set.name && set.name.length > 18) {
if (set.name === set.species) {
set.name = species.baseSpecies;
} else {
problems.push(`Nickname "${set.name}" too long (should be 18 characters or fewer)`);
}
}
set.name = dex.getName(set.name);
let item = dex.items.get(import_utils.Utils.getString(set.item));
set.item = item.name;
let ability = dex.abilities.get(import_utils.Utils.getString(set.ability));
set.ability = ability.name;
let nature = dex.natures.get(import_utils.Utils.getString(set.nature));
set.nature = nature.name;
if (!Array.isArray(set.moves))
set.moves = [];
set.name = set.name || species.baseSpecies;
let name = set.species;
if (set.species !== set.name && species.baseSpecies !== set.name) {
name = `${set.name} (${set.species})`;
}
if (!set.teraType && this.gen === 9) {
set.teraType = species.types[0];
}
if (!set.level)
set.level = ruleTable.defaultLevel;
let adjustLevel = ruleTable.adjustLevel;
if (ruleTable.adjustLevelDown && set.level >= ruleTable.adjustLevelDown) {
adjustLevel = ruleTable.adjustLevelDown;
}
if (set.level === adjustLevel || set.level === 100 && ruleTable.maxLevel < 100) {
set.level = ruleTable.maxLevel;
}
if (set.level < ruleTable.minLevel) {
problems.push(`${name} (level ${set.level}) is below the minimum level of ${ruleTable.minLevel}${ruleTable.blame("minlevel")}`);
}
if (set.level > ruleTable.maxLevel) {
problems.push(`${name} (level ${set.level}) is above the maximum level of ${ruleTable.maxLevel}${ruleTable.blame("maxlevel")}`);
}
const setHas = {};
if (!set.evs)
set.evs = TeamValidator.fillStats(null, ruleTable.evLimit === null ? 252 : 0);
if (!set.ivs)
set.ivs = TeamValidator.fillStats(null, 31);
if (ruleTable.has("obtainableformes")) {
problems.push(...this.validateForme(set));
species = dex.species.get(set.species);
}
const setSources = this.allSources(species);
for (const [rule] of ruleTable) {
if ("!+-*".includes(rule.charAt(0)))
continue;
const subformat = dex.formats.get(rule);
if (subformat.onChangeSet && ruleTable.has(subformat.id)) {
problems = problems.concat(subformat.onChangeSet.call(this, set, format, setHas, teamHas) || []);
}
}
if (format.onChangeSet) {
problems = problems.concat(format.onChangeSet.call(this, set, format, setHas, teamHas) || []);
}
species = dex.species.get(set.species);
item = dex.items.get(set.item);
ability = dex.abilities.get(set.ability);
const { outOfBattleSpecies, tierSpecies } = this.getValidationSpecies(set);
if (ability.id === "battlebond" && (0, import_dex.toID)(species.baseSpecies) === "greninja") {
if (ruleTable.has("obtainablemisc")) {
if (set.gender && set.gender !== "M") {
problems.push(`Battle Bond Greninja must be male.`);
}
set.gender = "M";
}
}
if (species.id === "melmetal" && set.gigantamax && this.dex.species.getLearnsetData(species.id).eventData) {
setSources.sourcesBefore = 0;
setSources.sources = ["8S0 melmetal"];
}
if (!species.exists) {
return [`The Pokemon "${set.species}" does not exist.`];
}
if (item.id && !item.exists) {
return [`"${set.item}" is an invalid item.`];
}
if (ability.id && !ability.exists) {
if (dex.gen < 3) {
ability = dex.abilities.get("");
set.ability = "";
} else {
return [`"${set.ability}" is an invalid ability.`];
}
}
if (nature.id && !nature.exists) {
if (dex.gen < 3) {
nature = dex.natures.get("");
set.nature = "";
} else {
problems.push(`"${set.nature}" is an invalid nature.`);
}
}
if (set.happiness !== void 0 && isNaN(set.happiness)) {
problems.push(`${name} has an invalid happiness value.`);
}
if (set.hpType) {
const type = dex.types.get(set.hpType);
if (!type.exists || ["normal", "fairy", "stellar"].includes(type.id)) {
problems.push(`${name}'s Hidden Power type (${set.hpType}) is invalid.`);
} else {
set.hpType = type.name;
}
}
if (species.forceTeraType) {
set.teraType = species.forceTeraType;
}
if (set.teraType) {
const type = dex.types.get(set.teraType);
if (!type.exists || type.isNonstandard) {
problems.push(`${name}'s Terastal type (${set.teraType}) is invalid.`);
} else {
set.teraType = type.name;
}
if (dex.gen !== 9 || ruleTable.has("terastalclause") && !ruleTable.has("bonustypemod")) {
delete set.teraType;
}
}
let problem = this.checkSpecies(set, species, tierSpecies, setHas);
if (problem)
problems.push(problem);
problem = this.checkItem(set, item, setHas);
if (problem)
problems.push(problem);
if (ruleTable.has("obtainablemisc")) {
if (dex.gen === 4 && item.id === "griseousorb" && species.num !== 487) {
problems.push(`${set.name} cannot hold the Griseous Orb.`, `(In Gen 4, only Giratina could hold the Griseous Orb).`);
}
if (dex.gen <= 1 || dex.currentMod === "gen7letsgo") {
if (item.id) {
set.item = "";
}
}
}
if (!set.ability)
set.ability = "No Ability";
if (ruleTable.has("obtainableabilities")) {
if (dex.gen <= 2 || dex.currentMod === "gen7letsgo") {
set.ability = "No Ability";
} else {
if (!ability.name || ability.name === "No Ability") {
problems.push(`${name} needs to have an ability.`);
} else if (!Object.values(species.abilities).includes(ability.name)) {
if (tierSpecies.abilities[0] === ability.name) {
set.ability = species.abilities[0];
} else {
problems.push(`${name} can't have ${set.ability}.`);
}
}
if (ability.name === species.abilities["H"]) {
setSources.isHidden = true;
let unreleasedHidden = species.unreleasedHidden;
if (unreleasedHidden === "Past" && this.minSourceGen < dex.gen)
unreleasedHidden = false;
if (unreleasedHidden && ruleTable.has("-unreleased")) {
problems.push(`${name}'s Hidden Ability is unreleased.`);
} else if (dex.gen === 7 && ["entei", "suicune", "raikou"].includes(species.id) && this.minSourceGen > 1) {
problems.push(`${name}'s Hidden Ability is only available from Virtual Console, which is not allowed in this format.`);
} else if (dex.gen === 6 && ability.name === "Symbiosis" && (set.species.endsWith("Orange") || set.species.endsWith("White"))) {
problems.push(`${name}'s Hidden Ability is unreleased for the Orange and White forms.`);
} else if (dex.gen === 5 && set.level < 10 && (species.maleOnlyHidden || species.gender === "N")) {
problems.push(`${name} must be at least level 10 to have a Hidden Ability.`);
}
if (species.maleOnlyHidden) {
if (set.gender && set.gender !== "M") {
problems.push(`${name} must be male to have a Hidden Ability.`);
}
set.gender = "M";
setSources.sources = ["5D"];
}
} else {
setSources.isHidden = false;
}
}
}
ability = dex.abilities.get(set.ability);
problem = this.checkAbility(set, ability, setHas);
if (problem)
problems.push(problem);
if (!set.nature || dex.gen <= 2) {
set.nature = "";
}
nature = dex.natures.get(set.nature);
problem = this.checkNature(set, nature, setHas);
if (problem)
problems.push(problem);
if (set.shiny && dex.gen === 1) {
set.shiny = false;
}
if (set.moves && Array.isArray(set.moves)) {
set.moves = set.moves.filter((val) => val);
}
if (!set.moves?.length) {
problems.push(`${name} has no moves (it must have at least one to be usable).`);
set.moves = [];
}
if (set.moves.length > ruleTable.maxMoveCount) {
problems.push(`${name} has ${set.moves.length} moves, which is more than the limit of ${ruleTable.maxMoveCount}.`);
return problems;
}
const pokemonGoProblems = this.validatePokemonGo(outOfBattleSpecies, set, setSources);
if (ruleTable.isBanned("nonexistent")) {
problems.push(...this.validateStats(set, species, setSources, pokemonGoProblems));
}
const moveLegalityWhitelist = {};
for (const moveName of set.moves) {
if (!moveName)
continue;
const move = dex.moves.get(import_utils.Utils.getString(moveName));
if (!move.exists)
return [`"${move.name}" is an invalid move.`];
problem = this.checkMove(set, move, setHas);
if (problem) {
let allowedByOM;
if (problem.includes("hacking or glitches") && ruleTable.has("omunobtainablemoves")) {
problem = `${name}'s ${problem}`;
allowedByOM = !this.omCheckCanLearn(move, outOfBattleSpecies, setSources, set, problem);
}
if (!allowedByOM) {
problems.push(problem);
} else {
moveLegalityWhitelist[move.id] = true;
}
}
}
const learnsetSpecies = dex.species.getLearnsetData(outOfBattleSpecies.id);
let isFromRBYEncounter = false;
if (this.gen === 1 && ruleTable.has("obtainablemisc") && !this.ruleTable.has("allowtradeback")) {
let lowestEncounterLevel;
for (const encounter of learnsetSpecies.encounters || []) {
if (encounter.generation !== 1)
continue;
if (!encounter.level)
continue;
if (lowestEncounterLevel && encounter.level > lowestEncounterLevel)
continue;
lowestEncounterLevel = encounter.level;
}
if (lowestEncounterLevel) {
if (set.level < lowestEncounterLevel) {
problems.push(`${name} is not obtainable at levels below ${lowestEncounterLevel} in Gen 1.`);
}
isFromRBYEncounter = true;
}
}
let isUnderleveled;
let requiredLevel;
if (!isFromRBYEncounter && ruleTable.has("obtainablemisc")) {
let evoSpecies = species;
while (evoSpecies.prevo) {
if (set.level < (evoSpecies.evoLevel || 0)) {
isUnderleveled = evoSpecies.name;
requiredLevel = evoSpecies.evoLevel;
break;
}
evoSpecies = dex.species.get(evoSpecies.prevo);
}
}
let moveProblems;
if (ruleTable.has("obtainablemoves")) {
moveProblems = this.validateMoves(outOfBattleSpecies, set.moves, setSources, set, name, moveLegalityWhitelist);
problems.push(...moveProblems);
}
let eventOnlyData;
if (!setSources.sourcesBefore && setSources.sources.length || isUnderleveled) {
let checkGoLegality = false;
let skippedEggSource = true;
const legalSources = [];
if (isUnderleveled && !setSources.sources.length) {
let evoSpecies = species;
while (evoSpecies.prevo) {
const eventData = dex.species.getLearnsetData(evoSpecies.id).eventData;
if (eventData) {
for (let eventIndex = 0; eventIndex < eventData.length; eventIndex++) {
const eventLevel = eventData[eventIndex].level;
if (eventLevel && set.level >= eventLevel) {
setSources.sources.push(`${eventData[eventIndex].generation}S${eventIndex} ${evoSpecies.id}`);
}
}
}
if (evoSpecies.name === isUnderleveled)
break;
evoSpecies = dex.species.get(evoSpecies.prevo);
}
} else {
checkGoLegality = true;
}
for (const source of setSources.sources) {
if (isUnderleveled) {
if (source.charAt(1) === "S") {
const eventSpecies = dex.species.get(source.substr(3)).baseSpecies;
const underleveledSpecies = dex.species.get(isUnderleveled).baseSpecies;
if (eventSpecies !== species.baseSpecies && eventSpecies !== underleveledSpecies)
continue;
} else if (source !== "8V") {
continue;
}
}
if (["2E", "3E"].includes(source.substr(0, 2)) && set.level < 5)
continue;
skippedEggSource = false;
if (this.validateSource(set, source, setSources, outOfBattleSpecies))
continue;
legalSources.push(source);
}
if (checkGoLegality && !legalSources.includes("8V"))
setSources.isFromPokemonGo = false;
if (setSources.isFromPokemonGo !== false && pokemonGoProblems && !pokemonGoProblems.length) {
if (!legalSources.length)
setSources.isFromPokemonGo = true;
if (!legalSources.includes("8V"))
legalSources.push("8V");
}
if (legalSources.length) {
setSources.sources = legalSources;
} else if (isUnderleveled) {
problems.push(`${name} must be at least level ${requiredLevel} to be evolved.`);
const firstEventSource = setSources.sources.find((source) => source.charAt(1) === "S");
if (firstEventSource) {
const eventProblems = this.validateSource(
set,
firstEventSource,
setSources,
outOfBattleSpecies,
` to be underleveled`
);
if (eventProblems)
problems.push(...eventProblems);
}
if (pokemonGoProblems?.length) {
problems.push(`It failed to validate as a Pokemon from Pokemon GO because:`);
for (const pokemonGoProblem of pokemonGoProblems) {
problems.push(pokemonGoProblem);
}
}
} else {
let nonEggSource = null;
for (const source of setSources.sources) {
if (source.charAt(1) !== "E") {
nonEggSource = source;
break;
}
}
if (!nonEggSource) {
if (skippedEggSource) {
problems.push(`${name} is from a Gen 2 or 3 egg, which cannot be obtained at levels below 5.`);
} else {
problems.push(`${name} can't get its egg move combination (${setSources.limitedEggMoves.join(", ")}) from any possible father.`);
problems.push(`(Is this incorrect? If so, post the chainbreeding instructions in Bug Reports)`);
}
} else {
if (species.id === "mew" && pokemonGoProblems && !pokemonGoProblems.length) {
setSources.isFromPokemonGo = true;
} else {
if (setSources.sources.length > 1) {
problems.push(`${name} has an event-exclusive move that it doesn't qualify for (only one of several ways to get the move will be listed):`);
}
const eventProblems = this.validateSource(
set,
nonEggSource,
setSources,
outOfBattleSpecies,
` because it has a move only available`
);
if (eventProblems)
problems.push(...eventProblems);
if (species.id === "mew" && pokemonGoProblems?.length) {
problems.push(`Additionally, it failed to validate as a Pokemon from Pokemon GO because:`);
for (const pokemonGoProblem of pokemonGoProblems) {
problems.push(pokemonGoProblem);
}
}
}
}
}
} else if (ruleTable.has("obtainablemisc") && (eventOnlyData = this.getEventOnlyData(outOfBattleSpecies))) {
const { species: eventSpecies, eventData } = eventOnlyData;
let legal = false;
for (const event of eventData) {
if (this.validateEvent(set, setSources, event, eventSpecies))
continue;
setSources.eventOnlyMinSourceGen = event.generation;
legal = true;
break;
}
if (!legal && species.gen <= 2 && dex.gen >= 7 && !this.validateSource(set, "7V", setSources, species)) {
legal = true;
}
if (!legal) {
if (!pokemonGoProblems || pokemonGoProblems?.length) {
if (eventData.length === 1) {
problems.push(`${species.name} is only obtainable from an event - it needs to match its event:`);
} else {
problems.push(`${species.name} is only obtainable from events - it needs to match one of its events:`);
}
for (const [i, event] of eventData.entries()) {
if (event.generation <= dex.gen && (event.generation >= this.minSourceGen || dex.gen > 8)) {
const eventInfo = event;
const eventNum = i + 1;
const eventName = eventData.length > 1 ? ` #${eventNum}` : ``;
const eventProblems = this.validateEvent(
set,
setSources,
eventInfo,
eventSpecies,
` to be`,
`from its event${eventName}`
);
if (eventProblems)
problems.push(...eventProblems);
}
}
if (pokemonGoProblems?.length) {
problems.push(`Additionally, it failed to validate as a Pokemon from Pokemon GO because:`);
for (const pokemonGoProblem of pokemonGoProblems) {
problems.push(pokemonGoProblem);
}
}
} else {
setSources.isFromPokemonGo = true;
}
}
}
const pokemonGoOnlySpecies = ["meltan", "melmetal", "gimmighoulroaming"];
if (ruleTable.has("obtainablemisc") && pokemonGoOnlySpecies.includes(species.id)) {
setSources.isFromPokemonGo = true;
if (pokemonGoProblems?.length) {
problems.push(`${name} is only obtainable from Pokemon GO, and failed to validate because:`);
for (const pokemonGoProblem of pokemonGoProblems) {
problems.push(pokemonGoProblem);
}
}
}
if (ruleTable.has("obtainablemoves") && setSources.isFromPokemonGo) {
setSources.restrictiveMoves = [];
setSources.sources = ["8V"];
setSources.sourcesBefore = 0;
if (moveProblems && !moveProblems.length) {
problems.push(...this.validateMoves(
outOfBattleSpecies,
set.moves,
setSources,
set,
name,
moveLegalityWhitelist
));
}
}
if (ruleTable.has("obtainablemoves")) {
if (species.id === "keldeo" && set.moves.includes("secretsword") && this.minSourceGen > 5 && dex.gen <= 7) {
problems.push(`${name} has Secret Sword, which is only compatible with Keldeo-Ordinary obtained from Gen 5.`);
}
const requiresGen3Source = setSources.maxSourceGen() <= 3;
if (requiresGen3Source && dex.abilities.get(set.ability).gen === 4 && !species.prevo && dex.gen <= 5) {
problems.push(`${name} has a Gen 4 ability and isn't evolved - it can't use moves from Gen 3.`);
}
const canUseAbilityPatch = dex.gen >= 8 && format.mod !== "gen8dlc1";
if (setSources.isHidden && !canUseAbilityPatch && setSources.maxSourceGen() < 5) {
problems.push(`${name} has a Hidden Ability - it can't use moves from before Gen 5.`);
}
if (species.maleOnlyHidden && setSources.isHidden && setSources.sourcesBefore < 5 && setSources.sources.every((source) => source.charAt(1) === "E")) {
problems.push(`${name} has an unbreedable Hidden Ability - it can't use egg moves.`);
}
}
if (teamHas) {
for (const i in setHas) {
if (i in teamHas) {
teamHas[i]++;
} else {
teamHas[i] = 1;
}
}
}
for (const [rule, source, limit, bans] of ruleTable.complexBans) {
let count = 0;
for (const ban of bans) {
if (setHas[ban])
count++;
}
if (limit && count > limit) {
const clause = source ? ` by ${source}` : ``;
problems.push(`${name} is limited to ${limit} of ${rule}${clause}.`);
} else if (!limit && count >= bans.length) {
const clause = source ? ` by ${source}` : ``;
if (source === "Obtainable Moves") {
problems.push(`${name} has the combination of ${rule}, which is impossible to obtain legitimately.`);
} else {
problems.push(`${name} has the combination of ${rule}, which is banned${clause}.`);
}
}
}
for (const [rule] of ruleTable) {
if ("!+-*".includes(rule.charAt(0)))
continue;
const subformat = dex.formats.get(rule);
if (subformat.onValidateSet && ruleTable.has(subformat.id)) {
problems = problems.concat(subformat.onValidateSet.call(this, set, format, setHas, teamHas) || []);
}
}
if (format.onValidateSet) {
problems = problems.concat(format.onValidateSet.call(this, set, format, setHas, teamHas) || []);
}
const nameSpecies = dex.species.get(set.name);
if (nameSpecies.exists && nameSpecies.name.toLowerCase() === set.name.toLowerCase()) {
if (nameSpecies.baseSpecies === species.baseSpecies) {
set.name = species.baseSpecies;
} else if (nameSpecies.name !== species.name && nameSpecies.name !== species.baseSpecies && ruleTable.has("nicknameclause")) {
problems.push(`${name} must not be nicknamed a different Pok\xE9mon species than what it actually is.`);
}
}
if (!problems.length) {
if (set.gender === "" && !species.gender) {
set.gender = ["M", "F"][Math.floor(Math.random() * 2)];
}
if (adjustLevel)
set.level = adjustLevel;
return null;
}
return problems;
}
validateStats(set, species, setSources, pokemonGoProblems) {
const ruleTable = this.ruleTable;
const dex = this.dex;
const allowAVs = ruleTable.has("allowavs");
const evLimit = ruleTable.evLimit;
const canBottleCap = dex.gen >= 7 && (set.level >= (dex.gen < 9 ? 100 : 50) || !ruleTable.has("obtainablemisc"));
if (!set.evs)
set.evs = TeamValidator.fillStats(null, evLimit === null ? 252 : 0);
if (!set.ivs)
set.ivs = TeamValidator.fillStats(null, 31);
const problems = [];
const name = set.name || set.species;
const maxedIVs = Object.values(set.ivs).every((stat) => stat === 31);
for (const moveName of set.moves) {
const move = dex.moves.get(moveName);
if (move.id === "hiddenpower" && move.type !== "Normal") {
if (!set.hpType) {
set.hpType = move.type;
} else if (set.hpType !== move.type && ruleTable.has("obtainablemisc")) {
problems.push(`${name}'s Hidden Power type ${set.hpType} is incompatible with Hidden Power ${move.type}`);
}
}
}
if (set.hpType && maxedIVs && ruleTable.has("obtainablemisc")) {
if (dex.gen <= 2) {
const HPdvs = dex.types.get(set.hpType).HPdvs;
set.ivs = { hp: 30, atk: 30, def: 30, spa: 30, spd: 30, spe: 30 };
let statName;
for (statName in HPdvs) {
set.ivs[statName] = HPdvs[statName] * 2;
}
set.ivs.hp = -1;
} else if (!canBottleCap) {
set.ivs = TeamValidator.fillStats(dex.types.get(set.hpType).HPivs, 31);
}
}
if (!set.hpType && set.moves.some((m) => dex.moves.get(m).id === "hiddenpower")) {
set.hpType = dex.getHiddenPower(set.ivs).type;
}
const cantBreedNorEvolve = species.eggGroups[0] === "Undiscovered" && !species.prevo && !species.nfe;
const isLegendary = cantBreedNorEvolve && !species.tags.includes("Paradox") && ![
"Pikachu",
"Unown",
"Dracozolt",
"Arctozolt",
"Dracovish",
"Arctovish",
"Gouging Fire",
"Raging Bolt",
"Iron Boulder",
"Iron Crown",
"Terapagos"
].includes(species.baseSpecies) || [
"Manaphy",
"Cosmog",
"Cosmoem",
"Solgaleo",
"Lunala"
].includes(species.baseSpecies);
const diancieException = species.name === "Diancie" && !set.shiny;
const has3PerfectIVs = setSources.minSourceGen() >= 6 && isLegendary && !diancieException;
if (set.hpType === "Fighting" && ruleTable.has("obtainablemisc")) {
if (has3PerfectIVs) {
problems.push(`${name} must not have Hidden Power Fighting because it starts with 3 perfect IVs because it's a Gen 6+ legendary.`);
}
}
if (has3PerfectIVs && ruleTable.has("obtainablemisc")) {
let perfectIVs = 0;
for (const stat in set.ivs) {
if (set.ivs[stat] >= 31)
perfectIVs++;
}
if (perfectIVs < 3) {
if (!pokemonGoProblems || pokemonGoProblems?.length) {
const reason = this.minSourceGen === 6 ? ` and this format requires Gen ${dex.gen} Pok\xE9mon` : ` in Gen 6 or later`;
problems.push(`${name} must have at least three perfect IVs because it's a legendary${reason}.`);
if (pokemonGoProblems?.length) {
problems.push(`Additionally, it failed to validate as a Pokemon from Pokemon GO because:`);
for (const pokemonGoProblem of pokemonGoProblems) {
problems.push(pokemonGoProblem);
}
}
} else {
setSources.isFromPokemonGo = true;
}
}
}
if (set.hpType && !canBottleCap) {
const ivHpType = dex.getHiddenPower(set.ivs).type;
if (set.hpType !== ivHpType) {
problems.push(`${name} has Hidden Power ${set.hpType}, but its IVs are for Hidden Power ${ivHpType}.`);
}
} else if (set.hpType) {
if (!this.possibleBottleCapHpType(set.hpType, set.ivs)) {
problems.push(`${name} has Hidden Power ${set.hpType}, but its IVs don't allow this even with (Bottle Cap) Hyper Training.`);
}
}
if (dex.gen <= 2) {
const ivs = set.ivs;
const atkDV = Math.floor(ivs.atk / 2);
const defDV = Math.floor(ivs.def / 2);
const speDV = Math.floor(ivs.spe / 2);
const spcDV = Math.floor(ivs.spa / 2);
const expectedHpDV = atkDV % 2 * 8 + defDV % 2 * 4 + speDV % 2 * 2 + spcDV % 2;
if (ivs.hp === -1)
ivs.hp = expectedHpDV * 2;
const hpDV = Math.floor(ivs.hp / 2);
if (expectedHpDV !== hpDV) {
problems.push(`${name} has an HP DV of ${hpDV}, but its Atk, Def, Spe, and Spc DVs give it an HP DV of ${expectedHpDV}.`);
}
if (ivs.spa !== ivs.spd) {
if (dex.gen === 2) {
problems.push(`${name} has different SpA and SpD DVs, which is not possible in Gen 2.`);
} else {
ivs.spd = ivs.spa;
}
}
if (dex.gen > 1 && !species.gender) {
const genderThreshold = species.genderRatio.F * 16;
const expectedGender = atkDV >= genderThreshold ? "M" : "F";
if (set.gender && set.gender !== expectedGender) {
problems.push(`${name} is ${set.gender}, but it has an Atk DV of ${atkDV}, which makes its gender ${expectedGender}.`);
} else {
set.gender = expectedGender;
}
}
if (set.species === "Marowak" && (0, import_dex.toID)(set.item) === "thickclub" && set.moves.map(import_dex.toID).includes("swordsdance") && set.level === 100) {
set.ivs.atk = Math.floor(set.ivs.atk / 2) * 2;
while (set.evs.atk > 0 && 2 * 80 + set.ivs.atk + Math.floor(set.evs.atk / 4) + 5 > 255) {
set.evs.atk -= 4;
}
}
if (dex.gen > 1) {
const expectedShiny = !!(defDV === 10 && speDV === 10 && spcDV === 10 && atkDV % 4 >= 2);
if (expectedShiny && !set.shiny) {
problems.push(`${name} is not shiny, which does not match its DVs.`);
} else if (!expectedShiny && set.shiny) {
problems.push(`${name} is shiny, which does not match its DVs (its DVs must all be 10, except Atk which must be 2, 3, 6, 7, 10, 11, 14, or 15).`);
}
}
set.nature = "Serious";
}
for (const stat in set.evs) {
if (set.evs[stat] < 0) {
problems.push(`${name} has less than 0 ${allowAVs ? "Awakening Values" : "EVs"} in ${import_dex.Dex.stats.names[stat]}.`);
}
}
if (dex.currentMod === "gen7letsgo") {
for (const stat in set.evs) {
if (set.evs[stat] > 0 && !allowAVs) {
problems.push(`${name} has Awakening Values but this format doesn't allow them.`);
break;
} else if (set.evs[stat] > 200) {
problems.push(`${name} has more than 200 Awakening Values in ${import_dex.Dex.stats.names[stat]}.`);
}
}
} else {
for (const stat in set.evs) {
if (set.evs[stat] > 255) {
problems.push(`${name} has more than 255 EVs in ${import_dex.Dex.stats.names[stat]}.`);
}
}
if (dex.gen <= 2) {
if (set.evs.spa !== set.evs.spd) {
if (dex.gen === 2) {
problems.push(`${name} has different SpA and SpD EVs, which is not possible in Gen 2.`);
} else {
set.evs.spd = set.evs.spa;
}
}
}
}
let totalEV = 0;
for (const stat in set.evs)
totalEV += set.evs[stat];
if (!this.format.debug) {
if (set.level > 1 && evLimit !== 0 && totalEV === 0) {
problems.push(`${name} has exactly 0 EVs - did you forget to EV it? (If this was intentional, add exactly 1 to one of your EVs, which won't change its stats but will tell us that it wasn't a mistake).`);
} else if (![508, 510].includes(evLimit) && [508, 510].includes(totalEV)) {
problems.push(`${name} has exactly ${totalEV} EVs, but this format does not restrict you to 510 EVs (If this was intentional, add exactly 1 to one of your EVs, which won't change its stats but will tell us that it wasn't a mistake).`);
}
if (set.level === 50 && ruleTable.maxLevel !== 50 && !ruleTable.maxTotalLevel && evLimit !== 0 && totalEV % 4 === 0) {
problems.push(`${name} is level 50, but this format allows level ${ruleTable.maxLevel} Pok\xE9mon. (If this was intentional, add exactly 1 to one of your EVs, which won't change its stats but will tell us that it wasn't a mistake).`);
}
}
if (evLimit !== null && totalEV > evLimit) {
if (!evLimit) {
problems.push(`${name} has EVs, which is not allowed by this format.`);
} else {
problems.push(`${name} has ${totalEV} total EVs, which is more than this format's limit of ${evLimit}.`);
}
}
return problems;
}
/**
* Not exhaustive, just checks Atk and Spe, which are the only competitively
* relevant IVs outside of extremely obscure situations.
*/
possibleBottleCapHpType(type, ivs) {
if (!type)
return true;
if (["Dark", "Dragon", "Grass", "Ghost", "Poison"].includes(type)) {
if (ivs.spe % 2 === 0)
return false;
}
if (["Psychic", "Fire", "Rock", "Fighting"].includes(type)) {
if (ivs.spe !== 31 && ivs.spe % 2 === 1)
return false;
}
if (type === "Dark") {
if (ivs.atk % 2 === 0)
return false;
}
if (["Ice", "Water"].includes(type)) {
if (ivs.spe % 2 === 0 && ivs.atk % 2 === 0)
return false;
}
return true;
}
/**
* Returns array of error messages if invalid, undefined if valid
*
* If `because` is not passed, instead returns true if invalid.
*/
validateSource(set, source, setSources, species, because) {
let eventData;
let eventSpecies = species;
if (source.charAt(1) === "S") {
const splitSource = source.substr(source.charAt(2) === "T" ? 3 : 2).split(" ");
const dex = this.dex.gen === 1 ? this.dex.mod("gen2") : this.dex;
eventSpecies = dex.species.get(splitSource[1]);
const eventLsetData = this.dex.species.getLearnsetData(eventSpecies.id);
eventData = eventLsetData.eventData?.[parseInt(splitSource[0])];
if (!eventData) {
throw new Error(`${eventSpecies.name} from ${species.name} doesn't have data for event ${source}`);
}
} else if (source === "7V") {
const isMew = species.id === "mew";
const isCelebi = species.id === "celebi";
const g7speciesName = species.gen > 2 && species.prevo ? species.prevo : species.id;
const isHidden = !!this.dex.mod("gen7").species.get(g7speciesName).abilities["H"];
eventData = {
generation: 2,
level: isMew ? 5 : isCelebi ? 30 : 3,
// Level 1/2 Pokémon can't be obtained by transfer from RBY/GSC
perfectIVs: isMew || isCelebi ? 5 : 3,
isHidden,
shiny: isMew ? void 0 : 1,
pokeball: "pokeball",
from: "Gen 1-2 Virtual Console transfer"
};
} else if (source === "8V") {
const isMew = species.id === "mew";
eventData = {
generation: 8,
perfectIVs: isMew ? 3 : void 0,
shiny: isMew ? void 0 : 1,
from: "Gen 7 Let's Go! HOME transfer"
};
} else if (source.charAt(1) === "D") {
eventData = {
generation: 5,
level: 10,
from: "Gen 5 Dream World",
isHidden: !!this.dex.mod("gen5").species.get(species.id).abilities["H"]
};
} else if (source.charAt(1) === "E") {
if (this.findEggMoveFathers(source, species, setSources)) {
return void 0;
}
if (because)
throw new Error(`Wrong place to get an egg incompatibility message`);
return true;
} else {
throw new Error(`Unidentified source ${source} passed to validateSource`);
}
return this.validateEvent(set, setSources, eventData, eventSpecies, because);
}
findEggMoveFathers(source, species, setSources, getAll, pokemonBlacklist, noRecurse) {
if (!pokemonBlacklist)
pokemonBlacklist = [];
if (!pokemonBlacklist.includes(species.id))
pokemonBlacklist.push(species.id);
const eggGen = Math.max(parseInt(source.charAt(0)), 2);
const fathers = [];
if (!getAll && eggGen >= 6 && !setSources.levelUpEggMoves && !species.mother)
return true;
let eggMoves = setSources.limitedEggMoves;
if (eggGen === 3)
eggMoves = eggMoves?.filter((eggMove) => !setSources.pomegEggMoves?.includes(eggMove));
if (!eggMoves) {
return getAll ? ["*"] : true;
}
if (!getAll && eggMoves.length <= 1 && !setSources.levelUpEggMoves)
return true;
if (setSources.levelUpEggMoves && eggGen >= 6)
eggMoves = setSources.levelUpEggMoves;
const dex = this.dex.gen === 1 ? this.dex.mod("gen2") : this.dex;
let eggGroups = species.eggGroups;
if (species.id === "nidoqueen" || species.id === "nidorina") {
eggGroups = dex.species.get("nidoranf").eggGroups;
} else if (species.id === "shedinja") {
eggGroups = dex.species.get("nincada").eggGroups;
} else if (dex !== this.dex) {
eggGroups = dex.species.get(species.id).eggGroups;
}
if (eggGroups[0] === "Undiscovered")
eggGroups = dex.species.get(species.evos[0]).eggGroups;
if (eggGroups[0] === "Undiscovered" || !eggGroups.length) {
throw new Error(`${species.name} has no egg groups for source ${source}`);
}
if (!getAll && eggGroups.includes("Field"))
return true;
for (const father of dex.species.all()) {
if (father.isNonstandard)
continue;
if (father.gen > eggGen)
continue;
if (father.gender === "N" || father.gender === "F")
continue;
if (!dex.species.getLearnsetData(father.id).learnset)
continue;
if (pokemonBlacklist.includes(father.id) && !["dragonite", "snorlax"].includes(father.id))
continue;
if (father.evos.length) {
const evolvedFather = dex.species.get(father.evos[0]);
if (evolvedFather.gen <= eggGen && evolvedFather.gender !== "F")
continue;
}
if (!father.eggGroups.some((eggGroup) => eggGroups.includes(eggGroup)))
continue;
if (!this.fatherCanLearn(species, father, eggMoves, eggGen, pokemonBlacklist, noRecurse))
continue;
if (!getAll)
return true;
fathers.push(father.id);
}
if (!getAll)
return false;
return !fathers.length && eggGen < 6 ? null : fathers;
}
/**
* We could, if we wanted, do a complete move validation of the father's
* moveset to see if it's valid. This would recurse and be NP-Hard so
* instead we won't. We'll instead use a simplified algorithm: The father
* is allowed to have multiple egg moves and a maximum of one move from
* any other restrictive source; recursion is done only if there are less
* egg moves to validate or if the father has an egg group it doesn't
* share with the egg Pokemon. Recursion is also limited to two iterations
* of calling findEggMoveFathers.
*/
fatherCanLearn(baseSpecies, species, moves, eggGen, pokemonBlacklist, noRecurse) {
if (!this.dex.species.getLearnsetData(species.id).learnset)
return false;
if (species.id === "smeargle")
return true;
const canBreedWithSmeargle = species.eggGroups.includes("Field");
const allEggSources = new PokemonSources();
allEggSources.sourcesBefore = eggGen;
for (const move of moves) {
const eggSources = new PokemonSources();
for (const { learnset, species: curSpecies } of this.dex.species.getFullLearnset(species.id)) {
const eggPokemon = curSpecies.prevo ? curSpecies.id : "";
if (learnset[move]) {
for (const moveSource of learnset[move]) {
if (eggGen > 8 && parseInt(moveSource.charAt(0)) <= 8)
continue;
if (parseInt(moveSource.charAt(0)) > eggGen)
continue;
const canLearnFromSmeargle = moveSource.charAt(1) === "E" && canBreedWithSmeargle;
if (!"ESDV".includes(moveSource.charAt(1)) || canLearnFromSmeargle) {
eggSources.addGen(parseInt(moveSource.charAt(0)));
break;
} else {
if (moveSource.charAt(1) === "E") {
eggSources.add(moveSource + eggPokemon, move);
if (eggGen === 2 && this.dex.moves.getByID(move).gen === 1)
eggSources.add("1ET" + eggPokemon, move);
} else {
eggSources.add(moveSource + eggPokemon);
}
}
}
}
if (eggSources.sourcesBefore === eggGen)
break;
}
if (eggSources.sourcesBefore === eggGen)
continue;
if (!eggSources.sourcesBefore && !eggSources.sources.length)
return false;
const onlyEggSources = eggSources.sources.filter((source) => source.charAt(1) === "E");
if (eggGen >= 3 && onlyEggSources.length && eggSources.limitedEggMoves === null && eggSources.sourcesBefore) {
eggSources.possiblyLimitedEggMoves = [(0, import_dex.toID)(`${eggSources.sourcesBefore}${move}`)];
}
allEggSources.intersectWith(eggSources);
if (!allEggSources.size())
return false;
}
pokemonBlacklist.push(species.id);
if (allEggSources.limitedEggMoves && allEggSources.limitedEggMoves.length > 1) {
if (noRecurse)
return false;
let canChainbreed = false;
for (const fatherEggGroup of species.eggGroups) {
if (!baseSpecies.eggGroups.includes(fatherEggGroup)) {
canChainbreed = true;
break;
}
}
if (!canChainbreed && allEggSources.limitedEggMoves.length === moves.length)
return false;
const setSources = new PokemonSources();
setSources.limitedEggMoves = allEggSources.limitedEggMoves;
return this.findEggMoveFathers(allEggSources.sources[0], species, setSources, false, pokemonBlacklist, true);
}
return true;
}
motherCanLearn(species, move) {
if (!species)
return false;
const fullLearnset = this.dex.species.getFullLearnset(species);
for (const { learnset } of fullLearnset) {
if (learnset[move])
return true;
}
return false;
}
validateForme(set) {
const dex = this.dex;
const name = set.name || set.species;
const problems = [];
const item = dex.items.get(set.item);
const species = dex.species.get(set.species);
if (species.name === "Necrozma-Ultra") {
const whichMoves = (set.moves.map(import_dex.toID).includes("sunsteelstrike") ? 1 : 0) + (set.moves.map(import_dex.toID).includes("moongeistbeam") ? 2 : 0);
if (item.name !== "Ultranecrozium Z") {
problems.push(`Necrozma-Ultra must start the battle holding Ultranecrozium Z.`);
} else if (whichMoves === 1) {
set.species = "Necrozma-Dusk-Mane";
set.ability = "Prism Armor";
} else if (whichMoves === 2) {
set.species = "Necrozma-Dawn-Wings";
set.ability = "Prism Armor";
} else {
problems.push(`Necrozma-Ultra must start the battle as Necrozma-Dusk-Mane or Necrozma-Dawn-Wings holding Ultranecrozium Z. Please specify which Necrozma it should start as.`);
}
} else if (species.name === "Zygarde-Complete") {
problems.push(`Zygarde-Complete must start the battle as Zygarde or Zygarde-10% with Power Construct. Please specify which Zygarde it should start as.`);
} else if (species.baseSpecies === "Terapagos") {
set.species = "Terapagos";
set.ability = "Tera Shift";
} else if (species.battleOnly) {
if (species.requiredAbility && set.ability !== species.requiredAbility) {
problems.push(`${species.name} transforms in-battle with ${species.requiredAbility}, please fix its ability.`);
}
if (species.requiredItems) {
if (!species.requiredItems.includes(item.name)) {
problems.push(`${species.name} transforms in-battle with ${species.requiredItem}, please fix its item.`);
}
}
if (species.requiredMove && !set.moves.map(import_dex.toID).includes((0, import_dex.toID)(species.requiredMove))) {
problems.push(`${species.name} transforms in-battle with ${species.requiredMove}, please fix its moves.`);
}
if (typeof species.battleOnly !== "string") {
throw new Error(`${species.name} should have a string battleOnly`);
}
set.species = species.battleOnly;
} else {
if (species.requiredAbility) {
throw new Error(`Species ${species.name} has a required ability despite not being a battle-only forme; it should just be in its abilities table.`);
}
if (species.requiredItems && !species.requiredItems.includes(item.name)) {
if (dex.gen >= 8 && (species.baseSpecies === "Arceus" || species.baseSpecies === "Silvally")) {
if (set.ability === species.abilities[0]) {
problems.push(
`${name} needs to hold ${species.requiredItems.join(" or ")}.`,
`(It will revert to its Normal forme if you remove the item or give it a different item.)`
);
}
} else {
const baseSpecies = this.dex.species.get(species.changesFrom);
problems.push(
`${name} needs to hold ${species.requiredItems.join(" or ")} to be in its ${species.forme} forme.`,
`(It will revert to its ${baseSpecies.baseForme || "base"} forme if you remove the item or give it a different item.)`
);
}
}
if (species.requiredMove && !set.moves.map(import_dex.toID).includes((0, import_dex.toID)(species.requiredMove))) {
const baseSpecies = this.dex.species.get(species.changesFrom);
problems.push(
`${name} needs to know the move ${species.requiredMove} to be in its ${species.forme} forme.`,
`(It will revert to its ${baseSpecies.baseForme} forme if it forgets the move.)`
);
}
if (item.forcedForme && species.name === dex.species.get(item.forcedForme).baseSpecies) {
set.species = item.forcedForme;
}
}
if (species.name === "Pikachu-Cosplay") {
const cosplay = {
meteormash: "Pikachu-Rock-Star",
iciclecrash: "Pikachu-Belle",
drainingkiss: "Pikachu-Pop-Star",
electricterrain: "Pikachu-PhD",
flyingpress: "Pikachu-Libre"
};
for (const moveid of set.moves) {
if (moveid in cosplay) {
set.species = cosplay[moveid];
break;
}
}
}
if (species.name === "Keldeo" && set.moves.map(import_dex.toID).includes("secretsword") && dex.gen >= 8) {
set.species = "Keldeo-Resolute";
}
const crowned = {
"Zacian-Crowned": "behemothblade",
"Zamazenta-Crowned": "behemothbash"
};
if (species.name in crowned) {
const behemothMove = set.moves.map(import_dex.toID).indexOf(crowned[species.name]);
if (behemothMove >= 0) {
set.moves[behemothMove] = "ironhead";
}
}
if (species.baseSpecies === "Hoopa" && dex.gen >= 9) {
const moves = set.moves.map(import_dex.toID);
const hyperspaceHole = moves.indexOf("hyperspacehole");
const hyperspaceFury = moves.indexOf("hyperspacefury");
if (species.name === "Hoopa" && hyperspaceFury >= 0) {
problems.push(`In Generation 9, Hoopa cannot run Hyperspace Fury because it gets replaced with Hyperspace Hole upon changing forme.`);
} else if (species.name === "Hoopa-Unbound" && hyperspaceHole >= 0) {
problems.push(`In Generation 9, Hoopa-Unbound cannot run Hyperspace Hole because it gets replaced with Hyperspace Fury upon changing forme.`);
}
}
if (species.baseSpecies === "Greninja" && (0, import_dex.toID)(set.ability) === "battlebond") {
set.species = "Greninja-Bond";
}
if (species.baseSpecies === "Rockruff" && (0, import_dex.toID)(set.ability) === "owntempo") {
set.species = "Rockruff-Dusk";
}
if (species.baseSpecies === "Unown" && dex.gen === 2) {
let resultBinary = "";
for (const iv of ["atk", "def", "spe", "spa"]) {
resultBinary += set.ivs[iv].toString(2).padStart(5, "0").slice(1, 3);
}
const resultDecimal = Math.floor(parseInt(resultBinary, 2) / 10);
const expectedLetter = String.fromCharCode(resultDecimal + 65);
const unownLetter = species.forme || "A";
if (unownLetter !== expectedLetter) {
problems.push(`Unown has forme ${unownLetter}, but its DVs give it the forme ${expectedLetter}.`);
}
}
return problems;
}
checkSpecies(set, species, tierSpecies, setHas) {
const dex = this.dex;
const ruleTable = this.ruleTable;
if (tierSpecies.id === "zamazentacrowned" && species.id === "zamazenta" || tierSpecies.id === "zaciancrowned" && species.id === "zacian") {
species = tierSpecies;
}
setHas["pokemon:" + species.id] = true;
setHas["basepokemon:" + (0, import_dex.toID)(species.baseSpecies)] = true;
let isMega = false;
if (tierSpecies !== species) {
setHas["pokemon:" + tierSpecies.id] = true;
if (tierSpecies.isMega || tierSpecies.isPrimal) {
setHas["pokemontag:mega"] = true;
isMega = true;
}
}
let isGmax = false;
if (tierSpecies.canGigantamax && set.gigantamax) {
setHas["pokemon:" + tierSpecies.id + "gmax"] = true;
isGmax = true;
}
if (tierSpecies.baseSpecies === "Greninja" && (0, import_dex.toID)(set.ability) === "battlebond") {
setHas["pokemon:greninjabond"] = true;
}
if (tierSpecies.baseSpecies === "Rockruff" && (0, import_dex.toID)(set.ability) === "owntempo") {
setHas["pokemon:rockruffdusk"] = true;
}
const tier = tierSpecies.tier === "(PU)" ? "ZU" : tierSpecies.tier === "(NU)" ? "PU" : tierSpecies.tier;
const tierTag = "pokemontag:" + (0, import_dex.toID)(tier);
setHas[tierTag] = true;
const doublesTier = tierSpecies.doublesTier === "(DUU)" ? "DNU" : tierSpecies.doublesTier;
const doublesTierTag = "pokemontag:" + (0, import_dex.toID)(doublesTier);
setHas[doublesTierTag] = true;
const ndTier = tierSpecies.natDexTier === "(PU)" ? "ZU" : tierSpecies.natDexTier === "(NU)" ? "PU" : tierSpecies.natDexTier;
const ndTierTag = "pokemontag:nd" + (0, import_dex.toID)(ndTier);
setHas[ndTierTag] = true;
if (!tierSpecies.canGigantamax && set.gigantamax) {
return `${tierSpecies.name} cannot Gigantamax but is flagged as being able to.`;
}
let banReason = ruleTable.check("pokemon:" + species.id);
if (banReason) {
return `${species.name} is ${banReason}.`;
}
if (banReason === "")
return null;
if (tierSpecies !== species) {
banReason = ruleTable.check("pokemon:" + tierSpecies.id);
if (banReason) {
return `${tierSpecies.name} is ${banReason}.`;
}
if (banReason === "")
return null;
}
if (isMega) {
banReason = ruleTable.check("pokemontag:mega", setHas);
if (banReason) {
return `Mega evolutions are ${banReason}.`;
}
}
if (isGmax) {
banReason = ruleTable.check("pokemon:" + tierSpecies.id + "gmax");
if (banReason) {
return `Gigantamaxing ${species.name} is ${banReason}.`;
}
}
banReason = ruleTable.check("basepokemon:" + (0, import_dex.toID)(species.baseSpecies));
if (banReason) {
return `${species.name} is ${banReason}.`;
}
if (banReason === "") {
const baseSpecies = dex.species.get(species.baseSpecies);
if (baseSpecies.isNonstandard === species.isNonstandard) {
return null;
}
}
let nonexistentCheck = import_tags.Tags.nonexistent.genericFilter(tierSpecies) && ruleTable.check("nonexistent");
const EXISTENCE_TAG = ["past", "future", "lgpe", "unobtainable", "cap", "custom", "nonexistent"];
for (const ruleid of ruleTable.tagRules) {
if (ruleid.startsWith("*"))
continue;
const tagid = ruleid.slice(12);
const tag = import_tags.Tags[tagid];
if ((tag.speciesFilter || tag.genericFilter)(tierSpecies)) {
const existenceTag = EXISTENCE_TAG.includes(tagid);
if (ruleid.startsWith("+")) {
if (!existenceTag && nonexistentCheck)
continue;
return null;
}
if (existenceTag) {
nonexistentCheck = "banned";
break;
}
return `${species.name} is tagged ${tag.name}, which is ${ruleTable.check(ruleid.slice(1)) || "banned"}.`;
}
}
if (nonexistentCheck) {
if (tierSpecies.isNonstandard === "Past" || tierSpecies.isNonstandard === "Future") {
return `${tierSpecies.name} does not exist in Gen ${dex.gen}.`;
}
if (tierSpecies.isNonstandard === "LGPE") {
return `${tierSpecies.name} does not exist in this game, only in Let's Go Pikachu/Eevee.`;
}
if (tierSpecies.isNonstandard === "CAP") {
return `${tierSpecies.name} is a CAP and does not exist in this game.`;
}
if (tierSpecies.isNonstandard === "Unobtainable") {
return `${tierSpecies.name} is not possible to obtain in this game.`;
}
if (tierSpecies.isNonstandard === "Gigantamax") {
return `${tierSpecies.name} is a placeholder for a Gigantamax sprite, not a real Pok\xE9mon. (This message is likely to be a validator bug.)`;
}
return `${tierSpecies.name} does not exist in this game.`;
}
if (nonexistentCheck === "")
return null;
if (tierSpecies.gmaxUnreleased && set.gigantamax) {
banReason = ruleTable.check("pokemontag:unobtainable");
if (banReason) {
return `${tierSpecies.name} is flagged as gigantamax, but it cannot gigantamax without hacking or glitches.`;
}
if (banReason === "")
return null;
}
banReason = ruleTable.check("pokemontag:allpokemon");
if (banReason) {
return `${species.name} is not in the list of allowed pokemon.`;
}
return null;
}
checkItem(set, item, setHas) {
const dex = this.dex;
const ruleTable = this.ruleTable;
setHas["item:" + item.id] = true;
let banReason = ruleTable.check("item:" + (item.id || "noitem"));
if (banReason) {
if (!item.id) {
return `${set.name} not holding an item is ${banReason}.`;
}
return `${set.name}'s item ${item.name} is ${banReason}.`;
}
if (banReason === "")
return null;
if (!item.id)
return null;
banReason = ruleTable.check("pokemontag:allitems");
if (banReason) {
return `${set.name}'s item ${item.name} is not in the list of allowed items.`;
}
if (item.isNonstandard) {
banReason = ruleTable.check("pokemontag:" + (0, import_dex.toID)(item.isNonstandard));
if (banReason) {
if (item.isNonstandard === "Unobtainable") {
return `${item.name} is not obtainable without hacking or glitches.`;
}
return `${set.name}'s item ${item.name} is tagged ${item.isNonstandard}, which is ${banReason}.`;
}
if (banReason === "")
return null;
}
if (item.isNonstandard && item.isNonstandard !== "Unobtainable") {
banReason = ruleTable.check("nonexistent", setHas);
if (banReason) {
if (["Past", "Future"].includes(item.isNonstandard)) {
return `${set.name}'s item ${item.name} does not exist in Gen ${dex.gen}.`;
}
return `${set.name}'s item ${item.name} does not exist in this game.`;
}
if (banReason === "")
return null;
}
return null;
}
checkMove(set, move, setHas) {
const dex = this.dex;
const ruleTable = this.ruleTable;
setHas["move:" + move.id] = true;
let banReason = ruleTable.check("move:" + move.id);
if (banReason) {
return `${set.name}'s move ${move.name} is ${banReason}.`;
}
if (banReason === "")
return null;
banReason = ruleTable.check("pokemontag:allmoves");
if (banReason) {
return `${set.name}'s move ${move.name} is not in the list of allowed moves.`;
}
if (move.isNonstandard) {
banReason = ruleTable.check("pokemontag:" + (0, import_dex.toID)(move.isNonstandard));
if (banReason) {
if (move.isNonstandard === "Unobtainable") {
return `${move.name} is not obtainable without hacking or glitches${dex.gen >= 9 && move.gen < dex.gen ? ` in Gen ${dex.gen}` : ``}.`;
}
if (move.isNonstandard === "Gigantamax") {
return `${move.name} is not usable without Gigantamaxing its user, ${move.isMax}.`;
}
return `${set.name}'s move ${move.name} is tagged ${move.isNonstandard}, which is ${banReason}.`;
}
if (banReason === "")
return null;
}
if (move.isNonstandard && move.isNonstandard !== "Unobtainable") {
banReason = ruleTable.check("nonexistent", setHas);
if (banReason) {
if (["Past", "Future"].includes(move.isNonstandard)) {
return `${set.name}'s move ${move.name} does not exist in Gen ${dex.gen}.`;
}
return `${set.name}'s move ${move.name} does not exist in this game.`;
}
if (banReason === "")
return null;
}
return null;
}
checkAbility(set, ability, setHas) {
const dex = this.dex;
const ruleTable = this.ruleTable;
setHas["ability:" + ability.id] = true;
if (this.format.id.startsWith("gen9pokebilities")) {
const species = dex.species.get(set.species);
const unSeenAbilities = Object.keys(species.abilities).filter((key) => key !== "S" && (key !== "H" || !species.unreleasedHidden)).map((key) => species.abilities[key]);
if (ability.id !== this.toID(species.abilities["S"])) {
for (const abilityName of unSeenAbilities) {
setHas["ability:" + (0, import_dex.toID)(abilityName)] = true;
}
}
}
let banReason = ruleTable.check("ability:" + ability.id);
if (banReason) {
return `${set.name}'s ability ${ability.name} is ${banReason}.`;
}
if (banReason === "")
return null;
banReason = ruleTable.check("pokemontag:allabilities");
if (banReason) {
return `${set.name}'s ability ${ability.name} is not in the list of allowed abilities.`;
}
if (ability.isNonstandard) {
banReason = ruleTable.check("pokemontag:" + (0, import_dex.toID)(ability.isNonstandard));
if (banReason) {
return `${set.name}'s ability ${ability.name} is tagged ${ability.isNonstandard}, which is ${banReason}.`;
}
if (banReason === "")
return null;
banReason = ruleTable.check("nonexistent", setHas);
if (banReason) {
if (["Past", "Future"].includes(ability.isNonstandard)) {
return `${set.name}'s ability ${ability.name} does not exist in Gen ${dex.gen}.`;
}
return `${set.name}'s ability ${ability.name} does not exist in this game.`;
}
if (banReason === "")
return null;
}
return null;
}
checkNature(set, nature, setHas) {
const dex = this.dex;
const ruleTable = this.ruleTable;
setHas["nature:" + nature.id] = true;
let banReason = ruleTable.check("nature:" + nature.id);
if (banReason) {
return `${set.name}'s nature ${nature.name} is ${banReason}.`;
}
if (banReason === "")
return null;
banReason = ruleTable.check("allnatures");
if (banReason) {
return `${set.name}'s nature ${nature.name} is not in the list of allowed natures.`;
}
if (nature.isNonstandard) {
banReason = ruleTable.check("pokemontag:" + (0, import_dex.toID)(nature.isNonstandard));
if (banReason) {
return `${set.name}'s nature ${nature.name} is tagged ${nature.isNonstandard}, which is ${banReason}.`;
}
if (banReason === "")
return null;
banReason = ruleTable.check("nonexistent", setHas);
if (banReason) {
if (["Past", "Future"].includes(nature.isNonstandard)) {
return `${set.name}'s nature ${nature.name} does not exist in Gen ${dex.gen}.`;
}
return `${set.name}'s nature ${nature.name} does not exist in this game.`;
}
if (banReason === "")
return null;
}
return null;
}
/**
* Returns array of error messages if invalid, undefined if valid
*
* If `because` is not passed, instead returns true if invalid.
*/
validateEvent(set, setSources, eventData, eventSpecies, because = ``, from = `from an event`) {
const dex = this.dex;
let name = set.species;
const species = dex.species.get(set.species);
const maxSourceGen = this.ruleTable.has("allowtradeback") ? import_utils.Utils.clampIntRange(dex.gen + 1, 1, 8) : dex.gen;
if (!eventSpecies)
eventSpecies = species;
if (set.name && set.species !== set.name && species.baseSpecies !== set.name)
name = `${set.name} (${set.species})`;
const fastReturn = !because;
if (eventData.from)
from = `from ${eventData.from}`;
const etc = `${because} ${from}`;
const problems = [];
if (dex.gen < 8 && this.minSourceGen > eventData.generation) {
if (fastReturn)
return true;
problems.push(`This format requires Pokemon from gen ${this.minSourceGen} or later and ${name} is from gen ${eventData.generation}${etc}.`);
}
if (maxSourceGen < eventData.generation) {
if (fastReturn)
return true;
problems.push(`This format is in gen ${dex.gen} and ${name} is from gen ${eventData.generation}${etc}.`);
}
if (eventData.japan && dex.currentMod !== "gen1jpn") {
if (fastReturn)
return true;
problems.push(`${name} has moves from Japan-only events, but this format simulates International Yellow/Crystal which can't trade with Japanese games.`);
}
if (eventData.level && (set.level || 0) < eventData.level) {
if (fastReturn)
return true;
problems.push(`${name} must be at least level ${eventData.level}${etc}.`);
}
if (eventData.shiny === true && !set.shiny || !eventData.shiny && set.shiny) {
if (fastReturn)
return true;
const shinyReq = eventData.shiny ? ` be shiny` : ` not be shiny`;
problems.push(`${name} must${shinyReq}${etc}.`);
}
if (eventData.gender) {
if (set.gender && eventData.gender !== set.gender) {
if (fastReturn)
return true;
problems.push(`${name}'s gender must be ${eventData.gender}${etc}.`);
}
}
const canMint = dex.gen > 7;
if (eventData.nature && eventData.nature !== set.nature && !canMint) {
if (fastReturn)
return true;
problems.push(`${name} must have a ${eventData.nature} nature${etc} - Mints are only available starting gen 8.`);
}
let requiredIVs = 0;
if (eventData.ivs) {
const canBottleCap = dex.gen >= 7 && set.level >= (dex.gen < 9 ? 100 : 50);
if (!set.ivs)
set.ivs = { hp: 31, atk: 31, def: 31, spa: 31, spd: 31, spe: 31 };
let statName;
for (statName in eventData.ivs) {
if (canBottleCap && set.ivs[statName] === 31)
continue;
if (set.ivs[statName] !== eventData.ivs[statName]) {
if (fastReturn)
return true;
problems.push(`${name} must have ${eventData.ivs[statName]} ${import_dex.Dex.stats.names[statName]} IVs${etc}.`);
}
}
if (canBottleCap) {
if (Object.keys(eventData.ivs).length >= 6) {
const requiredHpType = dex.getHiddenPower(eventData.ivs).type;
if (set.hpType && set.hpType !== requiredHpType) {
if (fastReturn)
return true;
problems.push(`${name} can only have Hidden Power ${requiredHpType}${etc}.`);
}
set.hpType = requiredHpType;
}
}
} else {
requiredIVs = eventData.perfectIVs || 0;
}
if (requiredIVs && set.ivs) {
let perfectIVs = 0;
let statName;
for (statName in set.ivs) {
if (set.ivs[statName] >= 31)
perfectIVs++;
}
if (perfectIVs < requiredIVs) {
if (fastReturn)
return true;
if (eventData.perfectIVs) {
problems.push(`${name} must have at least ${requiredIVs} perfect IVs${etc}.`);
}
}
if (dex.gen >= 3 && requiredIVs >= 3 && set.hpType === "Fighting") {
if (fastReturn)
return true;
problems.push(`${name} can't use Hidden Power Fighting because it must have at least three perfect IVs${etc}.`);
} else if (dex.gen >= 3 && requiredIVs >= 5 && set.hpType && !["Dark", "Dragon", "Electric", "Steel", "Ice"].includes(set.hpType)) {
if (fastReturn)
return true;
problems.push(`${name} can only use Hidden Power Dark/Dragon/Electric/Steel/Ice because it must have at least 5 perfect IVs${etc}.`);
}
}
const ruleTable = this.ruleTable;
if (ruleTable.has("obtainablemoves")) {
const ssMaxSourceGen = setSources.maxSourceGen();
const tradebackEligible = dex.gen === 2 && (species.gen === 1 || eventSpecies.gen === 1);
if (ssMaxSourceGen && eventData.generation > ssMaxSourceGen && !tradebackEligible) {
if (fastReturn)
return true;
problems.push(`${name} must not have moves only learnable in gen ${ssMaxSourceGen}${etc}.`);
}
if (eventData.from === "Gen 5 Dream World" && setSources.dreamWorldMoveCount > 1) {
problems.push(`${name} can only have one Dream World move.`);
}
}
if (ruleTable.has("obtainableabilities")) {
if (dex.gen <= 5 && eventData.abilities && eventData.abilities.length === 1 && !eventData.isHidden) {
if (species.name === eventSpecies.name) {
const requiredAbility = dex.abilities.get(eventData.abilities[0]).name;
if (set.ability !== requiredAbility) {
if (fastReturn)
return true;
problems.push(`${name} must have ${requiredAbility}${etc}.`);
}
} else {
const ability1 = dex.abilities.get(eventSpecies.abilities["1"]);
if (ability1.gen && eventData.generation >= ability1.gen) {
const requiredAbilitySlot = (0, import_dex.toID)(eventData.abilities[0]) === ability1.id ? 1 : 0;
const requiredAbility = dex.abilities.get(species.abilities[requiredAbilitySlot] || species.abilities["0"]).name;
if (set.ability !== requiredAbility) {
const originalAbility = dex.abilities.get(eventData.abilities[0]).name;
if (fastReturn)
return true;
problems.push(`${name} must have ${requiredAbility}${because} from a ${originalAbility} ${eventSpecies.name} event.`);
}
}
}
}
if (species.abilities["H"]) {
const isHidden = set.ability === species.abilities["H"];
if (!isHidden && eventData.isHidden && dex.gen <= 8) {
if (fastReturn)
return true;
problems.push(`${name} must have its Hidden Ability${etc}.`);
}
const canUseAbilityPatch = dex.gen >= 8 && this.format.mod !== "gen8dlc1";
if (isHidden && !eventData.isHidden && !canUseAbilityPatch) {
if (fastReturn)
return true;
problems.push(`${name} must not have its Hidden Ability${etc}.`);
}
}
}
if (problems.length)
return problems;
if (eventData.gender)
set.gender = eventData.gender;
}
allSources(species) {
let minSourceGen = this.minSourceGen;
if (this.dex.gen >= 3 && minSourceGen < 3)
minSourceGen = 3;
if (species)
minSourceGen = Math.max(minSourceGen, species.gen);
const maxSourceGen = this.ruleTable.has("allowtradeback") ? import_utils.Utils.clampIntRange(this.dex.gen + 1, 1, 8) : this.dex.gen;
return new PokemonSources(maxSourceGen, minSourceGen);
}
validateMoves(species, moves, setSources, set, name = species.name, moveLegalityWhitelist = {}) {
const dex = this.dex;
const ruleTable = this.ruleTable;
const problems = [];
const checkCanLearn = ruleTable.checkCanLearn?.[0] || this.checkCanLearn;
for (const moveName of moves) {
const move = dex.moves.get(moveName);
if (moveLegalityWhitelist[move.id])
continue;
const problem = checkCanLearn.call(this, move, species, setSources, set);
if (problem) {
problems.push(`${name}${problem}`);
break;
}
}
if (setSources.size() && setSources.moveEvoCarryCount > 3) {
if (setSources.sourcesBefore < 6)
setSources.sourcesBefore = 0;
setSources.sources = setSources.sources.filter(
(source) => source.charAt(1) === "E" && parseInt(source.charAt(0)) >= 6
);
if (!setSources.size()) {
problems.push(`${name} needs to know ${species.evoMove || "a Fairy-type move"} to evolve, so it can only know 3 other moves from ${species.prevo}.`);
}
}
if (problems.length)
return problems;
if (setSources.isHidden) {
setSources.sources = setSources.sources.filter(
(source) => parseInt(source.charAt(0)) >= 5
);
if (setSources.sourcesBefore < 5)
setSources.sourcesBefore = 0;
const canUseAbilityPatch = dex.gen >= 8 && this.format.mod !== "gen8dlc1";
if (!setSources.size() && !canUseAbilityPatch) {
problems.push(`${name} has a hidden ability - it can't have moves only learned before gen 5.`);
return problems;
}
}
if (setSources.babyOnly && setSources.sources.length) {
const baby = dex.species.get(setSources.babyOnly);
const babyEvo = (0, import_dex.toID)(baby.evos[0]);
setSources.sources = setSources.sources.filter((source) => {
if (source.charAt(1) === "S") {
const sourceId = source.split(" ")[1];
if (sourceId !== baby.id)
return false;
}
if (source.charAt(1) === "E") {
if (babyEvo && source.slice(2) === babyEvo)
return false;
}
if (source.charAt(1) === "D") {
if (babyEvo && source.slice(2) === babyEvo)
return false;
}
return true;
});
if (!setSources.size()) {
problems.push(`${name}'s event/egg moves are from an evolution, and are incompatible with its moves from ${baby.name}.`);
}
}
if (setSources.babyOnly && setSources.size() && this.gen > 2) {
const baby = dex.species.get(setSources.babyOnly);
setSources.sources = setSources.sources.filter((source) => {
if (baby.gen > parseInt(source.charAt(0)) && !source.startsWith("1ST"))
return false;
if (baby.gen > 2 && source === "7V")
return false;
return true;
});
if (setSources.sourcesBefore < baby.gen)
setSources.sourcesBefore = 0;
if (!setSources.size()) {
problems.push(`${name} has moves from before Gen ${baby.gen}, which are incompatible with its moves from ${baby.name}.`);
}
}
return problems;
}
/**
* Returns a list of problems regarding a Pokemon's avilability in Pokemon GO (empty list if no problems)
* If the Pokemon cannot be obtained from Pokemon GO, returns null
*/
validatePokemonGo(species, set, setSources, name = species.name) {
let problems = [];
let minLevel = 50;
let minIVs = 15;
const dex = this.dex;
const pokemonGoData = dex.species.getPokemonGoData(species.id);
if (dex.gen < 8 || this.format.mod === "gen8dlc1")
return null;
if (!pokemonGoData) {
const otherSpecies = this.dex.species.learnsetParent(species);
if (otherSpecies && !species.evoLevel) {
const otherProblems = this.validatePokemonGo(otherSpecies, set, setSources, name);
if (otherProblems) {
problems = otherProblems;
} else {
return null;
}
} else {
return null;
}
} else {
const pokemonGoSources = pokemonGoData.encounters;
if (!pokemonGoSources)
throw new Error(`Species with no Pokemon GO data: ${species.id}`);
if (set.shiny)
name = "Shiny " + name;
if (set.shiny && pokemonGoSources.includes("noshiny")) {
problems.push(`${name} is not obtainable from Pokemon GO.`);
} else {
if (pokemonGoSources.includes("wild")) {
minLevel = 1;
minIVs = 0;
}
if (pokemonGoSources.includes("egg")) {
minLevel = Math.min(minLevel, 2);
minIVs = Math.min(minIVs, 10);
}
if (pokemonGoSources.includes("12kmegg")) {
minLevel = Math.min(minLevel, 8);
minIVs = Math.min(minIVs, 10);
}
if (pokemonGoSources.includes("raid")) {
minLevel = Math.min(minLevel, 20);
minIVs = Math.min(minIVs, 10);
}
if (species.id === "mewtwo" && set.level >= 20) {
minIVs = Math.min(minIVs, 0);
}
if (pokemonGoSources.includes("research")) {
if (species.id === "cresselia") {
minLevel = Math.min(minLevel, 10);
} else {
minLevel = Math.min(minLevel, 15);
}
minIVs = Math.min(minIVs, 10);
}
if (pokemonGoSources.includes("giovanni") && !set.shiny) {
minLevel = Math.min(minLevel, 8);
minIVs = Math.min(minIVs, 1);
if (set.level < 12)
setSources.pokemonGoSource = "purified";
}
if (!pokemonGoSources.includes("notrade")) {
if (!set.shiny || species.id !== "deoxys") {
const specialTrade = pokemonGoSources.includes("specialtrade") || set.shiny;
minLevel = Math.min(minLevel, 12);
minIVs = Math.min(minIVs, specialTrade ? 1 : 0);
}
}
if (set.level < minLevel) {
problems.push(`${name} must be at least level ${minLevel} to be from Pokemon GO.`);
}
const ivs = set.ivs || TeamValidator.fillStats(null, 31);
const postTransferMinIVs = minIVs * 2 + 1;
let IVsTooLow = false;
let hasEvenIVs = false;
for (const stat in ivs) {
if (stat === "spe")
continue;
if (ivs[stat] < postTransferMinIVs)
IVsTooLow = true;
if (ivs[stat] % 2 === 0)
hasEvenIVs = true;
}
if (IVsTooLow) {
problems.push(`${name} must have at least ${postTransferMinIVs} ` + (postTransferMinIVs === 1 ? `IV` : `IVs`) + ` in non-Speed stats to be from Pokemon GO.`);
}
if (hasEvenIVs) {
problems.push(`${name} must have odd non-Speed IVs to be from Pokemon GO.`);
}
const canBottleCap = dex.gen >= 7 && set.level >= (dex.gen < 9 ? 100 : 50);
if (ivs.atk !== ivs.spa && !(canBottleCap && (ivs.atk === 31 || ivs.spa === 31))) {
problems.push(`${name}'s Atk and Sp. Atk IVs must match to be from Pokemon GO.`);
}
if (ivs.def !== ivs.spd && !(canBottleCap && (ivs.def === 31 || ivs.spd === 31))) {
problems.push(`${name}'s Def and Sp. Def IVs must match to be from Pokemon GO.`);
}
}
}
return problems;
}
omCheckCanLearn(move, s, setSources = this.allSources(s), set = {}, problem = `${set.name || s.name} can't learn ${move.name}`) {
if (!this.ruleTable.checkCanLearn?.[0])
return problem;
const baseCheckCanLearn = this.checkCanLearn;
this.checkCanLearn = () => problem;
const omVerdict = this.ruleTable.checkCanLearn[0].call(this, move, s, setSources, set);
this.checkCanLearn = baseCheckCanLearn;
return omVerdict;
}
/** Returns null if you can learn the move, or a string explaining why you can't learn it */
checkCanLearn(move, originalSpecies, setSources = this.allSources(originalSpecies), set = {}) {
const dex = this.dex;
if (!setSources.size())
throw new Error(`Bad sources passed to checkCanLearn`);
move = dex.moves.get(move);
const moveid = move.id;
const baseSpecies = dex.species.get(originalSpecies);
const format = this.format;
const ruleTable = this.ruleTable;
const level = set.level || 100;
const canLearnSpecies = [];
let cantLearnReason = null;
let limit1 = true;
let sketch = false;
let blockedHM = false;
let babyOnly = "";
let minLearnGen = dex.gen;
const moveSources = new PokemonSources();
const noFutureGen = !ruleTable.has("allowtradeback");
const canSketchPostGen7Moves = ruleTable.has("sketchpostgen7moves") || this.dex.currentMod === "gen8bdsp";
let tradebackEligible = false;
const fullLearnset = dex.species.getFullLearnset(originalSpecies.id);
if (!fullLearnset.length) {
return ` can't learn any moves at all.`;
}
for (const { species, learnset } of fullLearnset) {
if (dex.gen <= 2 && species.gen === 1)
tradebackEligible = true;
const checkingPrevo = species.baseSpecies !== originalSpecies.baseSpecies;
if (checkingPrevo && !moveSources.size()) {
if (!setSources.babyOnly || !species.prevo) {
babyOnly = species.id;
}
}
const formeCantInherit = dex.species.eggMovesOnly(species, baseSpecies);
if (formeCantInherit && dex.gen < 9)
break;
let sources = learnset[moveid] || [];
if (moveid === "sketch") {
sketch = true;
} else if (learnset["sketch"]) {
if (move.flags["nosketch"] || move.isZ || move.isMax) {
cantLearnReason = `can't be Sketched.`;
} else if (move.gen > 7 && !canSketchPostGen7Moves && (dex.gen === 8 || dex.gen === 9 && ["gen9dlc1", "gen9predlc"].includes(format.mod))) {
cantLearnReason = `can't be Sketched because it's a Gen ${move.gen} move and Sketch isn't available in Gen ${move.gen}.`;
} else {
if (!sources.length || !moveSources.size())
sketch = true;
sources = [...learnset["sketch"], ...sources];
}
}
for (let learned of sources) {
const learnedGen = parseInt(learned.charAt(0));
if (formeCantInherit && (learned.charAt(1) !== "E" || learnedGen < 9))
continue;
if (setSources.learnsetDomain && !setSources.learnsetDomain.includes(`${learnedGen}${(0, import_dex.toID)(species.baseSpecies)}`) && (learned.charAt(1) !== "E" || learnedGen < 8)) {
if (!cantLearnReason) {
cantLearnReason = `is incompatible with ${(setSources.restrictiveMoves || []).join(", ")}.`;
}
continue;
}
if (learnedGen < this.minSourceGen) {
if (!cantLearnReason) {
cantLearnReason = `can't be transferred from Gen ${learnedGen} to ${this.minSourceGen}.`;
}
continue;
}
if (noFutureGen && learnedGen > dex.gen) {
if (!cantLearnReason) {
cantLearnReason = `can't be transferred from Gen ${learnedGen} to ${dex.gen}.`;
}
continue;
}
if (baseSpecies.evoRegion === "Alola" && checkingPrevo && learnedGen >= 8 && (dex.gen < 9 || learned.charAt(1) !== "E")) {
cantLearnReason = `is from a ${species.name} that can't be transferred to USUM to evolve into ${baseSpecies.name}.`;
continue;
}
const canUseAbilityPatch = dex.gen >= 8 && format.mod !== "gen8dlc1";
if (learnedGen < 7 && setSources.isHidden && !canUseAbilityPatch && !dex.mod(`gen${learnedGen}`).species.get(baseSpecies.name).abilities["H"]) {
cantLearnReason = `can only be learned in gens without Hidden Abilities.`;
continue;
}
const ability = dex.abilities.get(set.ability);
if (dex.gen < 6 && ability.gen > learnedGen && !checkingPrevo) {
cantLearnReason = `is learned in gen ${learnedGen}, but the Ability ${ability.name} did not exist then.`;
continue;
}
if (species.isNonstandard !== "CAP") {
if (dex.gen >= 4 && learnedGen <= 3 && [
"cut",
"fly",
"surf",
"strength",
"flash",
"rocksmash",
"waterfall",
"dive"
].includes(moveid)) {
cantLearnReason = `can't be transferred from Gen 3 to 4 because it's an HM move.`;
continue;
}
if (dex.gen >= 5 && learnedGen <= 4 && [
"cut",
"fly",
"surf",
"strength",
"rocksmash",
"waterfall",
"rockclimb"
].includes(moveid)) {
cantLearnReason = `can't be transferred from Gen 4 to 5 because it's an HM move.`;
continue;
}
if (dex.gen >= 5 && ["defog", "whirlpool"].includes(moveid) && learnedGen <= 4)
blockedHM = true;
}
if (learned.charAt(1) === "L") {
if (level >= parseInt(learned.substr(2)) || learnedGen === 7) {
} else if (level >= 5 && learnedGen === 3 && species.canHatch) {
learned = `${learnedGen}Epomeg`;
} else if (species.gender !== "N" && learnedGen >= 2 && species.canHatch && !setSources.isFromPokemonGo) {
if (species.gender === "M" && !this.motherCanLearn((0, import_dex.toID)(species.mother), moveid)) {
cantLearnReason = `is learned at level ${parseInt(learned.substr(2))}.`;
continue;
}
learned = `${learnedGen}Eany`;
} else {
cantLearnReason = `is learned at level ${parseInt(learned.substr(2))}.`;
continue;
}
}
if (learnedGen >= 8 && learned.charAt(1) === "E" && learned.slice(1) !== "Eany" && learned.slice(1) !== "Epomeg" || "LMTR".includes(learned.charAt(1))) {
if (learnedGen === dex.gen && learned.charAt(1) !== "R") {
if (!(learnedGen >= 8 && learned.charAt(1) === "E") && babyOnly && setSources.isFromPokemonGo && species.evoLevel) {
cantLearnReason = `is from a prevo, which is incompatible with its Pokemon GO origin.`;
continue;
}
if (!moveSources.moveEvoCarryCount && !babyOnly)
return null;
}
if (learned.charAt(1) === "R") {
moveSources.restrictedMove = moveid;
}
limit1 = false;
moveSources.addGen(learnedGen);
} else if (learned.charAt(1) === "E") {
let limitedEggMove = void 0;
if (learned.slice(1) === "Eany") {
if (species.gender === "F") {
limitedEggMove = move.id;
moveSources.levelUpEggMoves = [move.id];
} else {
limitedEggMove = null;
}
} else if (learned.slice(1) === "Epomeg") {
moveSources.pomegEggMoves = [move.id];
} else if (learnedGen < 6 || species.mother && !this.motherCanLearn((0, import_dex.toID)(species.mother), moveid)) {
limitedEggMove = move.id;
}
learned = `${learnedGen}E${species.prevo ? species.id : ""}`;
if (tradebackEligible && learnedGen === 2 && move.gen <= 1) {
moveSources.add(`1ET${learned.slice(2)}`, limitedEggMove);
}
moveSources.add(learned, limitedEggMove);
} else if (learned.charAt(1) === "S") {
if (tradebackEligible && learnedGen === 2 && move.gen <= 1) {
moveSources.add(`1ST${learned.slice(2)} ${species.id}`);
}
moveSources.add(`${learned} ${species.id}`);
const eventLearnset = dex.species.getLearnsetData(species.id);
if (eventLearnset.eventData?.[parseInt(learned.charAt(2))].emeraldEventEgg && learnedGen === 3) {
moveSources.pomegEventEgg = `${learned} ${species.id}`;
}
} else if (learned.charAt(1) === "D") {
moveSources.add(`${learned}${species.id}`);
if (!moveSources.sourcesBefore)
moveSources.dreamWorldMoveCount++;
} else if (learned.charAt(1) === "V" && this.minSourceGen < learnedGen) {
if (learned === "8V" && setSources.isFromPokemonGo && babyOnly && species.evoLevel) {
cantLearnReason = `is from a prevo, which is incompatible with its Pokemon GO origin.`;
continue;
}
moveSources.add(learned);
}
if (learned.charAt(1) === "E" && learnedGen >= 8 && !canLearnSpecies.includes((0, import_dex.toID)(baseSpecies.baseSpecies))) {
canLearnSpecies.push((0, import_dex.toID)(baseSpecies.baseSpecies));
}
if (!canLearnSpecies.includes((0, import_dex.toID)(species.baseSpecies)))
canLearnSpecies.push((0, import_dex.toID)(species.baseSpecies));
minLearnGen = Math.min(minLearnGen, learnedGen);
}
if (ruleTable.has("mimicglitch") && species.gen < 5) {
const glitchMoves = ["metronome", "copycat", "transform", "mimic", "assist"];
let getGlitch = false;
for (const i of glitchMoves) {
if (learnset[i]) {
if (!(i === "mimic" && dex.abilities.get(set.ability).gen === 4 && !species.prevo)) {
getGlitch = true;
break;
}
}
}
if (getGlitch) {
moveSources.addGen(4);
if (move.gen < 5) {
limit1 = false;
}
}
}
if (!moveSources.size()) {
if (species.evoType === "levelMove" && species.evoMove !== move.name || species.id === "sylveon" && move.type !== "Fairy") {
moveSources.moveEvoCarryCount = 1;
}
}
}
if (limit1 && sketch) {
if (setSources.sketchMove) {
return ` can't Sketch ${move.name} and ${setSources.sketchMove} because it can only Sketch 1 move.`;
}
setSources.sketchMove = move.name;
}
if (blockedHM) {
if (setSources.hm)
return ` can't simultaneously transfer Defog and Whirlpool from Gen 4 to 5.`;
setSources.hm = moveid;
}
if (!setSources.restrictiveMoves) {
setSources.restrictiveMoves = [];
}
if (!setSources.restrictiveMoves.includes(move.name)) {
setSources.restrictiveMoves.push(move.name);
}
const checkedSpecies = babyOnly ? fullLearnset[fullLearnset.length - 1].species : baseSpecies;
if (checkedSpecies && setSources.isFromPokemonGo && (setSources.pokemonGoSource === "purified" || checkedSpecies.id === "mew")) {
const pokemonGoData = dex.species.getPokemonGoData(checkedSpecies.id);
if (pokemonGoData.LGPERestrictiveMoves) {
let levelUpMoveCount = 0;
const restrictiveMovesToID = [];
for (const moveName of setSources.restrictiveMoves) {
restrictiveMovesToID.push((0, import_dex.toID)(moveName));
}
for (const restrictiveMove in pokemonGoData.LGPERestrictiveMoves) {
const moveLevel = pokemonGoData.LGPERestrictiveMoves[restrictiveMove];
if ((0, import_dex.toID)(move) === restrictiveMove) {
if (!moveLevel) {
return `'s move ${move.name} is incompatible with its Pokemon GO origin.`;
} else if (set.level && set.level < moveLevel) {
return ` must be at least level ${moveLevel} to learn ${move.name} due to its Pokemon GO origin.`;
}
}
if (levelUpMoveCount)
levelUpMoveCount++;
if (restrictiveMovesToID.includes(restrictiveMove)) {
if (!levelUpMoveCount) {
levelUpMoveCount++;
} else if (levelUpMoveCount > 4) {
return `'s moves ${(setSources.restrictiveMoves || []).join(", ")} are incompatible with its Pokemon GO origin.`;
}
}
}
}
}
let nextSpecies;
nextSpecies = baseSpecies;
let speciesCount = 0;
if (!tradebackEligible) {
if (!dex.species.getLearnsetData(nextSpecies.id).learnset) {
nextSpecies = dex.species.get(nextSpecies.changesFrom || nextSpecies.baseSpecies);
}
while (nextSpecies) {
for (let gen = nextSpecies.gen; gen <= dex.gen; gen++) {
const baseSpeciesID = (0, import_dex.toID)(nextSpecies.baseSpecies);
if (canLearnSpecies.includes(baseSpeciesID) || 0 < speciesCount && speciesCount < canLearnSpecies.length || speciesCount === 0 && gen >= minLearnGen || speciesCount === canLearnSpecies.length && gen <= moveSources.sourcesBefore) {
if (!moveSources.learnsetDomain)
moveSources.learnsetDomain = [];
moveSources.learnsetDomain.push(`${gen}${baseSpeciesID}`);
}
}
if (canLearnSpecies.includes(nextSpecies.id))
speciesCount++;
nextSpecies = dex.species.learnsetParent(nextSpecies);
}
}
if (!moveSources.size()) {
if (cantLearnReason)
return `'s move ${move.name} ${cantLearnReason}`;
return ` can't learn ${move.name}.`;
}
const eggSources = moveSources.sources.filter((source) => source.charAt(1) === "E");
if (dex.gen >= 3 && eggSources.length && moveSources.limitedEggMoves === null && moveSources.sourcesBefore) {
moveSources.possiblyLimitedEggMoves = [(0, import_dex.toID)(`${moveSources.sourcesBefore}${move.id}`)];
}
const backupSources = setSources.sources;
const backupSourcesBefore = setSources.sourcesBefore;
setSources.intersectWith(moveSources);
if (!setSources.size()) {
setSources.sources = backupSources;
setSources.sourcesBefore = backupSourcesBefore;
if (setSources.isFromPokemonGo)
return `'s move ${move.name} is incompatible with its Pokemon GO origin.`;
return `'s moves ${(setSources.restrictiveMoves || []).join(", ")} are incompatible.`;
}
if (babyOnly)
setSources.babyOnly = babyOnly;
return null;
}
static fillStats(stats, fillNum = 0) {
const filledStats = { hp: fillNum, atk: fillNum, def: fillNum, spa: fillNum, spd: fillNum, spe: fillNum };
if (stats) {
let statName;
for (statName in filledStats) {
const stat = stats[statName];
if (typeof stat === "number")
filledStats[statName] = stat;
}
}
return filledStats;
}
static get(format) {
return new TeamValidator(format);
}
}
//# sourceMappingURL=team-validator.js.map