175 lines
6.3 KiB
TypeScript
175 lines
6.3 KiB
TypeScript
import { globalBus } from "@/game/events";
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import { GenericLayer } from "@/game/layers";
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import Decimal, { DecimalSource } from "@/util/bignum";
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import { ProcessedComputable } from "@/util/computed";
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import { isArray } from "@vue/shared";
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import { ComponentOptions, CSSProperties, DefineComponent, isRef, ref, Ref } from "vue";
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export const SetupPersistence = Symbol("SetupPersistence");
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export const DefaultValue = Symbol("DefaultValue");
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export const Component = Symbol("Component");
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// Note: This is a union of things that should be safely stringifiable without needing
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// special processes for knowing what to load them in as
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// - Decimals aren't allowed because we'd need to know to parse them back.
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// - DecimalSources are allowed because the string is a valid value for them
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export type State =
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| string
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| number
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| boolean
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| DecimalSource
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| { [key: string]: State }
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| { [key: number]: State };
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export type CoercableComponent = string | ComponentOptions | DefineComponent | JSX.Element;
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export type StyleValue = string | CSSProperties | Array<StyleValue>;
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export type Persistent<T extends State = State> = {
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state: Ref<T>;
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[DefaultValue]: T;
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[SetupPersistence]: () => Ref<T>;
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};
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export type PersistentRef<T extends State = State> = Ref<T> & {
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[DefaultValue]: T;
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[SetupPersistence]: () => Ref<T>;
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};
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// TODO if importing .vue components in .tsx can become type safe,
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// this type can probably be safely removed
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// eslint-disable-next-line @typescript-eslint/no-explicit-any
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export type GenericComponent = DefineComponent<any, any, any>;
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// Example usage: `<Upgrade {...wrapComputable<GenericUpgrade>(upgrade)} />`
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export function wrapFeature<T>(component: T): FeatureComponent<T> {
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// TODO is this okay, or do we actually need to unref each property?
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return (component as unknown) as FeatureComponent<T>;
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}
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export type FeatureComponent<T> = Omit<
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{
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[K in keyof T]: T[K] extends ProcessedComputable<infer S> ? S : T[K];
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},
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typeof Component | typeof DefaultValue | typeof SetupPersistence
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>;
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export type Replace<T, S> = S & Omit<T, keyof S>;
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let id = 0;
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// Get a unique ID to allow a feature to be found for creating branches
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// and any other uses requiring unique identifiers for each feature
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// IDs are gauranteed unique, but should not be saved as they are not
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// guaranteed to be persistent through updates and such
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export function getUniqueID(prefix = "feature-"): string {
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return prefix + id++;
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}
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export enum Visibility {
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Visible,
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Hidden,
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None
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}
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export function showIf(condition: boolean, otherwise = Visibility.None): Visibility {
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return condition ? Visibility.Visible : otherwise;
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}
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export function persistent<T extends State>(defaultValue: T | Ref<T>): PersistentRef<T> {
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const persistent = isRef(defaultValue) ? defaultValue : (ref(defaultValue) as Ref<T>);
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((persistent as unknown) as PersistentRef<T>)[DefaultValue] = isRef(defaultValue)
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? defaultValue.value
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: defaultValue;
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((persistent as unknown) as PersistentRef<T>)[SetupPersistence] = function() {
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return persistent;
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};
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return (persistent as unknown) as PersistentRef<T>;
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}
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export function makePersistent<T extends State>(
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obj: unknown,
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defaultValue: T
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): asserts obj is Persistent<T> {
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const persistent = obj as Partial<Persistent<T>>;
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const state = ref(defaultValue) as Ref<T>;
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Object.defineProperty(persistent, "state", {
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get: () => {
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return state.value;
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},
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set: (val: T) => {
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state.value = val;
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}
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});
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persistent[DefaultValue] = isRef(defaultValue) ? (defaultValue.value as T) : defaultValue;
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persistent[SetupPersistence] = function() {
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return state;
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};
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}
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export function setDefault<T, K extends keyof T>(
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object: T,
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key: K,
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value: T[K]
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): asserts object is Exclude<T, K> & Required<Pick<T, K>> {
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if (object[key] === undefined && value != undefined) {
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object[key] = value;
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}
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}
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export function findFeatures(obj: Record<string, unknown>, type: symbol): unknown[] {
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const objects: unknown[] = [];
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const handleObject = (obj: Record<string, unknown>) => {
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Object.keys(obj).forEach(key => {
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const value = obj[key];
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if (value && typeof value === "object") {
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if ((value as Record<string, unknown>).type === type) {
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objects.push(value);
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} else {
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handleObject(value as Record<string, unknown>);
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}
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}
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});
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};
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handleObject(obj);
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return objects;
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}
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globalBus.on("addLayer", (layer: GenericLayer, saveData: Record<string, unknown>) => {
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const handleObject = (
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obj: Record<string, unknown>,
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persistentState: Record<string, unknown>,
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foundArray: boolean
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) => {
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Object.keys(obj).forEach(key => {
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const value = obj[key];
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if (value && typeof value === "object") {
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const warnArray = foundArray || isArray(value);
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if (SetupPersistence in value) {
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if (warnArray) {
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console.warn(
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"Found persistent property inside array when adding layer. Keep in mind changing the order of persistent objects in an array will mess with existing player saves.",
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layer
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);
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}
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const savedValue = persistentState[key];
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// eslint-disable-next-line @typescript-eslint/no-explicit-any
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persistentState[key] = (value as PersistentRef | Persistent)[
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SetupPersistence
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]();
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if (savedValue != null) {
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(persistentState[key] as Ref<unknown>).value = savedValue;
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}
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} else if (!(value instanceof Decimal)) {
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if (typeof persistentState[key] !== "object") {
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persistentState[key] = {};
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}
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handleObject(
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value as Record<string, unknown>,
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persistentState[key] as Record<string, unknown>,
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warnArray
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);
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}
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}
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});
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};
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handleObject(layer, saveData, false);
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});
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