mirror of
https://github.com/bitburner-official/bitburner-src.git
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167 lines
6.4 KiB
TypeScript
167 lines
6.4 KiB
TypeScript
import { Player } from "../../../src/Player";
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import { NetscriptFunctions } from "../../../src/NetscriptFunctions";
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import { RamCosts, getRamCost, RamCostConstants, RamCostTree } from "../../../src/Netscript/RamCostGenerator";
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import { Environment } from "../../../src/Netscript/Environment";
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import { RunningScript } from "../../../src/Script/RunningScript";
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import { Script } from "../../../src/Script/Script";
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import { WorkerScript } from "../../../src/Netscript/WorkerScript";
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import { calculateRamUsage } from "../../../src/Script/RamCalculations";
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import { ns } from "../../../src/NetscriptFunctions";
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import { InternalAPI } from "src/Netscript/APIWrapper";
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import { Singularity } from "@nsdefs";
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type PotentiallyAsyncFunction = (arg?: unknown) => { catch?: PotentiallyAsyncFunction };
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/** Get a potentiallyAsyncFunction from a layer of the external ns */
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function getFunction(fn: unknown) {
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if (typeof fn !== "function") throw new Error("Expected a function at this location.");
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return fn as PotentiallyAsyncFunction;
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}
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function grabCost<API>(ramEntry: RamCostTree<API>[keyof API]) {
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if (typeof ramEntry === "function") return ramEntry();
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if (typeof ramEntry === "number") return ramEntry;
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throw new Error("Invalid ramcost: " + ramEntry);
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}
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describe("Netscript RAM Calculation/Generation Tests", function () {
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Player.sourceFiles.set(4, 3);
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// For simulating costs of singularity functions.
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const baseCost = RamCostConstants.Base;
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const maxCost = RamCostConstants.Max;
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const script = new Script();
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/** Creates a RunningScript object which calculates static ram usage */
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function createRunningScript(code: string) {
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script.code = code;
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// Force ram calculation reset
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script.ramUsage = null;
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const ramUsage = script.getRamUsage(new Map());
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if (!ramUsage) throw new Error("Ram usage should be defined.");
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const runningScript = new RunningScript(script, ramUsage);
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return runningScript;
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}
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/** Runs a Netscript function and properly catches an error even if it returns promise. */
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function tryFunction(fn: PotentiallyAsyncFunction) {
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try {
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fn()?.catch?.(() => undefined);
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} catch {}
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}
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let scriptRef = createRunningScript("");
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//Since it is expensive to create a workerscript and wrap the ns API, this is done once
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const workerScript = {
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args: [] as string[],
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code: "",
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delay: null,
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dynamicLoadedFns: {},
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dynamicRamUsage: RamCostConstants.Base,
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env: new Environment(),
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ramUsage: scriptRef.ramUsage,
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scriptRef,
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};
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const nsExternal = NetscriptFunctions(workerScript as unknown as WorkerScript);
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function combinedRamCheck(
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fn: PotentiallyAsyncFunction,
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fnPath: string[],
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expectedRamCost: number,
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extraLayerCost = 0,
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) {
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const code = `${fnPath.join(".")}();\n`.repeat(3);
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const fnName = fnPath[fnPath.length - 1];
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//check imported getRamCost fn vs. expected ram from test
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expect(getRamCost(fnPath, true)).toEqual(expectedRamCost);
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// Static ram check
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const staticCost = calculateRamUsage(code, new Map()).cost;
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expect(staticCost).toBeCloseTo(Math.min(baseCost + expectedRamCost + extraLayerCost, maxCost));
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// reset workerScript for dynamic check
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scriptRef = createRunningScript(code);
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Object.assign(workerScript, {
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code,
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scriptRef,
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ramUsage: scriptRef.ramUsage,
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dynamicRamUsage: baseCost,
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env: new Environment(),
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dynamicLoadedFns: {},
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});
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workerScript.env.vars = nsExternal;
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// Run the function through the workerscript's args
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if (typeof fn === "function") {
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tryFunction(fn);
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tryFunction(fn);
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tryFunction(fn);
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} else {
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throw new Error(`Invalid function specified: [${fnPath.toString()}]`);
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}
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expect(workerScript.dynamicLoadedFns).toHaveProperty(fnName);
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expect(workerScript.dynamicRamUsage).toBeCloseTo(Math.min(expectedRamCost + baseCost, maxCost), 5);
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expect(workerScript.dynamicRamUsage).toBeCloseTo(scriptRef.ramUsage - extraLayerCost, 5);
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}
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describe("ns", () => {
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function testLayer<API>(
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internalLayer: InternalAPI<API>,
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externalLayer: API,
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ramLayer: RamCostTree<API>,
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path: string[],
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extraLayerCost: number,
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) {
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describe(path[path.length - 1] ?? "Base ns layer", () => {
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for (const [key, val] of Object.entries(internalLayer) as [keyof API, InternalAPI<API>[keyof API]][]) {
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const newPath = [...path, key as string];
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if (typeof val === "function") {
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const fn = getFunction(externalLayer[key]);
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const fnName = newPath.join(".");
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if (!(key in ramLayer)) {
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throw new Error("Missing ramcost for " + fnName);
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}
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const expectedRam = grabCost(ramLayer[key]);
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it(`${fnName}()`, () => combinedRamCheck(fn, newPath, expectedRam, extraLayerCost));
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}
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//A layer should be the only other option. Hacknet is currently the only layer with a layer cost.
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else if (typeof val === "object" && key !== "enums") {
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//hacknet is currently the only layer with a layer cost.
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const layerCost = key === "hacknet" ? 4 : 0;
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testLayer(val as InternalAPI<unknown>, externalLayer[key], ramLayer[key], newPath, layerCost);
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}
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// Other things like args, enums, etc. have no cost
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}
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});
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}
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testLayer(ns, nsExternal, RamCosts, [], 0);
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});
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describe("Singularity multiplier checks", () => {
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// Checks were already done above for SF4.3 having normal ramcost.
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Player.sourceFiles.set(4, 3);
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const lvlToMult = { 0: 16, 1: 16, 2: 4 };
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const externalSingularity = nsExternal.singularity;
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const ramCostSingularity = RamCosts.singularity;
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const singObjects = (
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Object.entries(ns.singularity) as [keyof Singularity, InternalAPI<Singularity>[keyof Singularity]][]
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)
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.filter(([__, v]) => typeof v === "function")
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.map(([name]) => {
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return {
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name,
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baseRam: grabCost<Singularity>(ramCostSingularity[name]),
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};
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});
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for (const lvl of [0, 1, 2] as const) {
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it(`SF4.${lvl} check for x${lvlToMult[lvl]} costs`, () => {
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Player.sourceFiles.set(4, lvl);
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const expectedMult = lvlToMult[lvl];
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singObjects.forEach(({ name, baseRam }) => {
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const fn = getFunction(externalSingularity[name]);
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combinedRamCheck(fn, ["singularity", name], baseRam * expectedMult);
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});
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});
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}
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});
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});
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