mirror of
https://github.com/bitburner-official/bitburner-src.git
synced 2024-12-28 08:57:32 +01:00
241 lines
6.6 KiB
TypeScript
241 lines
6.6 KiB
TypeScript
import { Generic_fromJSON, Generic_toJSON, Reviver } from "../utils/JSONReviver";
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import { Export } from "./Export";
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interface IConstructorParams {
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name?: string;
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}
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export class Material {
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// Name of material
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name = "InitName";
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// Amount of material owned
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qty = 0;
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// Material's "quality". Unbounded
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qlt = 0;
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// How much demand the Material has in the market, and the range of possible
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// values for this "demand"
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dmd = 0;
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dmdR: number[] = [0, 0];
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// How much competition there is for this Material in the market, and the range
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// of possible values for this "competition"
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cmp = 0;
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cmpR: number[] = [0, 0];
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// Maximum volatility of this Materials stats
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mv = 0;
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// Markup. Determines how high of a price you can charge on the material
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// compared to the market price without suffering loss in # of sales
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// Quality is divided by this to determine markup limits
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// e,g, If mku is 10 and quality is 100 then you can markup prices by 100/10 = 10
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mku = 0;
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// How much of this material is being bought, sold, imported and produced every second
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buy = 0;
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sll = 0;
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prd = 0;
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imp = 0;
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// Exports of this material to another warehouse/industry
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exp: Export[] = [];
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// Total amount of this material exported in the last cycle
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totalExp = 0;
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// Cost / sec to buy this material. AKA Market Price
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bCost = 0;
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// Cost / sec to sell this material
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sCost: string | number = 0;
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// Flags to keep track of whether production and/or sale of this material is limited
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// [Whether production/sale is limited, limit amount]
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prdman: [boolean, number] = [false, 0]; // Production
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sllman: [boolean, string | number] = [false, 0]; // Sale
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// Flags that signal whether automatic sale pricing through Market TA is enabled
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marketTa1 = false;
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marketTa2 = false;
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marketTa2Price = 0;
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constructor(params: IConstructorParams = {}) {
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if (params.name) {
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this.name = params.name;
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}
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this.init();
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}
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getMarkupLimit(): number {
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return this.qlt / this.mku;
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}
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init(): void {
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switch (this.name) {
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case "Water":
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this.dmd = 75;
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this.dmdR = [65, 85];
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this.cmp = 50;
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this.cmpR = [40, 60];
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this.bCost = 1500;
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this.mv = 0.2;
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this.mku = 6;
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break;
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case "Energy":
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this.dmd = 90;
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this.dmdR = [80, 99];
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this.cmp = 80;
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this.cmpR = [65, 95];
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this.bCost = 2000;
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this.mv = 0.2;
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this.mku = 6;
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break;
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case "Food":
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this.dmd = 80;
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this.dmdR = [70, 90];
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this.cmp = 60;
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this.cmpR = [35, 85];
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this.bCost = 5000;
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this.mv = 1;
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this.mku = 3;
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break;
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case "Plants":
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this.dmd = 70;
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this.dmdR = [20, 90];
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this.cmp = 50;
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this.cmpR = [30, 70];
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this.bCost = 3000;
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this.mv = 0.6;
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this.mku = 3.75;
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break;
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case "Metal":
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this.dmd = 80;
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this.dmdR = [75, 85];
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this.cmp = 70;
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this.cmpR = [60, 80];
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this.bCost = 2650;
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this.mv = 1;
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this.mku = 6;
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break;
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case "Hardware":
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this.dmd = 85;
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this.dmdR = [80, 90];
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this.cmp = 80;
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this.cmpR = [65, 95];
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this.bCost = 8e3;
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this.mv = 0.5; //Less mv bc its processed twice
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this.mku = 1;
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break;
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case "Chemicals":
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this.dmd = 55;
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this.dmdR = [40, 70];
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this.cmp = 60;
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this.cmpR = [40, 80];
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this.bCost = 9e3;
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this.mv = 1.2;
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this.mku = 2;
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break;
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case "Real Estate":
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this.dmd = 50;
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this.dmdR = [5, 99];
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this.cmp = 50;
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this.cmpR = [25, 75];
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this.bCost = 80e3;
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this.mv = 1.5; //Less mv bc its processed twice
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this.mku = 1.5;
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break;
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case "Drugs":
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this.dmd = 60;
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this.dmdR = [45, 75];
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this.cmp = 70;
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this.cmpR = [40, 99];
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this.bCost = 40e3;
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this.mv = 1.6;
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this.mku = 1;
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break;
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case "Robots":
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this.dmd = 90;
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this.dmdR = [80, 9];
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this.cmp = 90;
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this.cmpR = [80, 9];
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this.bCost = 75e3;
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this.mv = 0.5; //Less mv bc its processed twice
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this.mku = 1;
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break;
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case "AI Cores":
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this.dmd = 90;
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this.dmdR = [80, 99];
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this.cmp = 90;
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this.cmpR = [80, 9];
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this.bCost = 15e3;
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this.mv = 0.8; //Less mv bc its processed twice
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this.mku = 0.5;
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break;
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case "Scientific Research":
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case "InitName":
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break;
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default:
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console.error(`Invalid material type in init(): ${this.name}`);
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break;
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}
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}
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// Process change in demand, competition, and buy cost of this material
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processMarket(): void {
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// The price will change in accordance with demand and competition.
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// e.g. If demand goes up, then so does price. If competition goes up, price goes down
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const priceVolatility: number = (Math.random() * this.mv) / 300;
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const priceChange: number = 1 + priceVolatility;
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//This 1st random check determines whether competition increases or decreases
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const compVolatility: number = (Math.random() * this.mv) / 100;
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const compChange: number = 1 + compVolatility;
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if (Math.random() < 0.5) {
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this.cmp *= compChange;
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if (this.cmp > this.cmpR[1]) {
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this.cmp = this.cmpR[1];
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}
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this.bCost *= 1 / priceChange; // Competition increases, so price goes down
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} else {
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this.cmp *= 1 / compChange;
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if (this.cmp < this.cmpR[0]) {
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this.cmp = this.cmpR[0];
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}
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this.bCost *= priceChange; // Competition decreases, so price goes up
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}
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// This 2nd random check determines whether demand increases or decreases
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const dmdVolatility: number = (Math.random() * this.mv) / 100;
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const dmdChange: number = 1 + dmdVolatility;
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if (Math.random() < 0.5) {
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this.dmd *= dmdChange;
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if (this.dmd > this.dmdR[1]) {
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this.dmd = this.dmdR[1];
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}
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this.bCost *= priceChange; // Demand increases, so price goes up
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} else {
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this.dmd *= 1 / dmdChange;
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if (this.dmd < this.dmdR[0]) {
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this.dmd = this.dmdR[0];
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}
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this.bCost *= 1 / priceChange;
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}
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}
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// Serialize the current object to a JSON save state.
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toJSON(): any {
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return Generic_toJSON("Material", this);
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}
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// Initiatizes a Material object from a JSON save state.
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// eslint-disable-next-line @typescript-eslint/explicit-module-boundary-types
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static fromJSON(value: any): Material {
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return Generic_fromJSON(Material, value.data);
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}
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}
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Reviver.constructors.Material = Material;
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