rm some any

2024-11-19 14:13:48 +01:00 · 2022-07-14 23:03:54 -04:00 · 2022-07-14 23:03:54 -04:00 · 86c0913bd3
commit 86c0913bd3
parent 8fe824e8cd
6 changed files with 135 additions and 86 deletions
--- a/src/GameOptions/ui/GameOptionsSidebar.tsx
+++ b/src/GameOptions/ui/GameOptionsSidebar.tsx
@ -74,8 +74,8 @@ export const GameOptionsSidebar = (props: IProps): React.ReactElement => {
      const data = await saveObject.getImportDataFromString(base64Save);
      setImportData(data);
      setImportSaveOpen(true);
-    } catch (ex: any) {
+    } catch (e: unknown) {
-      SnackbarEvents.emit(ex.toString(), ToastVariant.ERROR, 5000);
+      SnackbarEvents.emit(String(e), ToastVariant.ERROR, 5000);
    }
  }
@ -84,8 +84,8 @@ export const GameOptionsSidebar = (props: IProps): React.ReactElement => {
    try {
      await saveObject.importGame(importData.base64);
-    } catch (ex: any) {
+    } catch (e: unknown) {
-      SnackbarEvents.emit(ex.toString(), ToastVariant.ERROR, 5000);
+      SnackbarEvents.emit(String(e), ToastVariant.ERROR, 5000);
    }
    setImportSaveOpen(false);
--- a/src/NetscriptFunctions/Flags.ts
+++ b/src/NetscriptFunctions/Flags.ts
@ -1,5 +1,5 @@
 import { toNative } from "./toNative";
-import * as libarg from "arg";
+import libarg from "arg";
 export function Flags(vargs: string[]): any {
  return () =>
--- a/src/NetscriptFunctions/toNative.ts
+++ b/src/NetscriptFunctions/toNative.ts
@ -20,11 +20,13 @@ export function toNative(pseudoObj: any): any {
  if (pseudoObj.hasOwnProperty("class") && pseudoObj.class === "Array") {
    nativeObj = [];
    const length = defaultInterpreter.getProperty(pseudoObj, "length");
    if (typeof length === "number") {
      for (let i = 0; i < length; i++) {
        if (defaultInterpreter.hasProperty(pseudoObj, i)) {
          nativeObj[i] = toNative(defaultInterpreter.getProperty(pseudoObj, i));
        }
      }
    }
  } else {
    // Object.
    nativeObj = {};
--- a/src/Themes/ui/ThemeEditorModal.tsx
+++ b/src/Themes/ui/ThemeEditorModal.tsx
@ -94,7 +94,7 @@ export function ThemeEditorModal(props: IProps): React.ReactElement {
  }
  function onColorChange(name: string, value: string): void {
-    setCustomTheme((old: any) => {
+    setCustomTheme((old: { [key: string]: string | undefined }) => {
      old[name] = value;
      return old;
    });
--- a/src/ThirdParty/JSInterpreter.d.ts
+++ b/src/ThirdParty/JSInterpreter.d.ts
@ -1 +1,9 @@
-export declare let Interpreter: any;
+export declare class Interpreter {
  constructor(code: string, opt_initFunc: (int: Interpreter, scope: Object) => void, lineOffset?: number);
  getProperty(obj: Value, name: Value): Value;
  hasProperty(obj: Value, name: Value): boolean;
 }
 // Object and Value are 2 different things in the interpreter;
 export declare type Object = unknown;
 export declare type Value = unknown;
--- a/src/data/codingcontracttypes.ts
+++ b/src/data/codingcontracttypes.ts
@ -6,14 +6,14 @@ import { HammingEncode, HammingDecode } from "../utils/HammingCodeTools";
 /* tslint:disable:completed-docs no-magic-numbers arrow-return-shorthand */
 /* Function that generates a valid 'data' for a contract type */
-export type GeneratorFunc = () => any;
+export type GeneratorFunc = () => unknown;
 /* Function that checks if the provided solution is the correct one */
-export type SolverFunc = (data: any, answer: string) => boolean;
+export type SolverFunc = (data: unknown, answer: string) => boolean;
 /* Function that returns a string with the problem's description.
   Requires the 'data' of a Contract as input */
-export type DescriptionFunc = (data: any) => string;
+export type DescriptionFunc = (data: unknown) => string;
 interface ICodingContractTypeMetadata {
  desc: DescriptionFunc;
@ -49,10 +49,10 @@ function removeQuotesFromString(str: string): string {
  return strCpy;
 }
-function convert2DArrayToString(arr: any[][]): string {
+function convert2DArrayToString(arr: unknown[][]): string {
  const components: string[] = [];
-  arr.forEach((e: any) => {
+  arr.forEach((e: unknown) => {
-    let s: string = e.toString();
+    let s = String(e);
    s = ["[", s, "]"].join("");
    components.push(s);
  });
@ -62,7 +62,7 @@ function convert2DArrayToString(arr: any[][]): string {
 export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
  {
-    desc: (n: number): string => {
+    desc: (n: unknown): string => {
      return ["A prime factor is a factor that is a prime number.", `What is the largest prime factor of ${n}?`].join(
        " ",
      );
@ -73,7 +73,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Find Largest Prime Factor",
    numTries: 10,
-    solver: (data: number, ans: string): boolean => {
+    solver: (data: unknown, ans: string): boolean => {
      if (typeof data !== "number") throw new Error("solver expected number");
      let fac = 2;
      let n: number = data;
      while (n > (fac - 1) * (fac - 1)) {
@ -87,7 +88,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (n: number[]): string => {
+    desc: (_n: unknown): string => {
      const n = _n as number[];
      return [
        "Given the following integer array, find the contiguous subarray",
        "(containing at least one number) which has the largest sum and return that sum.",
@ -108,7 +110,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Subarray with Maximum Sum",
    numTries: 10,
-    solver: (data: number[], ans: string): boolean => {
+    solver: (_data: unknown, ans: string): boolean => {
      const data = _data as number[];
      const nums: number[] = data.slice();
      for (let i = 1; i < nums.length; i++) {
        nums[i] = Math.max(nums[i], nums[i] + nums[i - 1]);
@ -118,7 +121,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (n: number): string => {
+    desc: (n: unknown): string => {
      if (typeof n !== "number") throw new Error("solver expected number");
      return [
        "It is possible write four as a sum in exactly four different ways:\n\n",
        "&nbsp;&nbsp;&nbsp;&nbsp;3 + 1\n",
@ -135,7 +139,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Total Ways to Sum",
    numTries: 10,
-    solver: (data: number, ans: string): boolean => {
+    solver: (data: unknown, ans: string): boolean => {
      if (typeof data !== "number") throw new Error("solver expected number");
      const ways: number[] = [1];
      ways.length = data + 1;
      ways.fill(0, 1);
@ -149,7 +154,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (data: [number, number[]]): string => {
+    desc: (_data: unknown): string => {
      const data = _data as [number, number[]];
      const n: number = data[0];
      const s: number[] = data[1];
      return [
@ -178,7 +184,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Total Ways to Sum II",
    numTries: 10,
-    solver: (data: [number, number[]], ans: string): boolean => {
+    solver: (_data: unknown, ans: string): boolean => {
      const data = _data as [number, number[]];
      // https://www.geeksforgeeks.org/coin-change-dp-7/?ref=lbp
      const n = data[0];
      const s = data[1];
@ -194,7 +201,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (n: number[][]): string => {
+    desc: (_n: unknown): string => {
      const n = _n as number[][];
      let d: string = [
        "Given the following array of arrays of numbers representing a 2D matrix,",
        "return the elements of the matrix as an array in spiral order:\n\n",
@ -252,7 +260,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Spiralize Matrix",
    numTries: 10,
-    solver: (data: number[][], ans: string): boolean => {
+    solver: (_data: unknown, ans: string): boolean => {
      const data = _data as number[][];
      const spiral: number[] = [];
      const m: number = data.length;
      const n: number = data[0].length;
@ -299,11 +308,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
        }
      }
-      const sanitizedPlayerAns: string = removeBracketsFromArrayString(ans).replace(/\s/g, "");
+      const sanitizedPlayerAns = removeBracketsFromArrayString(ans).replace(/\s/g, "");
-      const playerAns: any[] = sanitizedPlayerAns.split(",");
+      const playerAns = sanitizedPlayerAns.split(",").map((s) => parseInt(s));
      for (let i = 0; i < playerAns.length; ++i) {
        playerAns[i] = parseInt(playerAns[i], 10);
      }
      if (spiral.length !== playerAns.length) {
        return false;
      }
@ -317,7 +323,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (arr: number[]): string => {
+    desc: (_arr: unknown): string => {
      const arr = _arr as number[];
      return [
        "You are given the following array of integers:\n\n",
        `${arr}\n\n`,
@ -348,7 +355,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Array Jumping Game",
    numTries: 1,
-    solver: (data: number[], ans: string): boolean => {
+    solver: (_data: unknown, ans: string): boolean => {
      const data = _data as number[];
      const n: number = data.length;
      let i = 0;
      for (let reach = 0; i < n && i <= reach; ++i) {
@ -359,7 +367,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (arr: number[]): string => {
+    desc: (_arr: unknown): string => {
      const arr = _arr as number[];
      return [
        "You are given the following array of integers:\n\n",
        `${arr}\n\n`,
@ -391,7 +400,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Array Jumping Game II",
    numTries: 3,
-    solver: (data: number[], ans: string): boolean => {
+    solver: (_data: unknown, ans: string): boolean => {
      const data = _data as number[];
      const n: number = data.length;
      let reach = 0;
      let jumps = 0;
@ -415,7 +425,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (arr: number[][]): string => {
+    desc: (_arr: unknown): string => {
      const arr = _arr as number[][];
      return [
        "Given the following array of arrays of numbers representing a list of",
        "intervals, merge all overlapping intervals.\n\n",
@ -442,7 +453,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Merge Overlapping Intervals",
    numTries: 15,
-    solver: (data: number[][], ans: string): boolean => {
+    solver: (_data: unknown, ans: string): boolean => {
      const data = _data as number[][];
      const intervals: number[][] = data.slice();
      intervals.sort((a: number[], b: number[]) => {
        return a[0] - b[0];
@ -469,7 +481,7 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (data: string): string => {
+    desc: (data: unknown): string => {
      return [
        "Given the following string containing only digits, return",
        "an array with all possible valid IP address combinations",
@ -495,17 +507,18 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Generate IP Addresses",
    numTries: 10,
-    solver: (data: string, ans: string): boolean => {
+    solver: (data: unknown, ans: string): boolean => {
      if (typeof data !== "string") throw new Error("solver expected string");
      const ret: string[] = [];
      for (let a = 1; a <= 3; ++a) {
        for (let b = 1; b <= 3; ++b) {
          for (let c = 1; c <= 3; ++c) {
            for (let d = 1; d <= 3; ++d) {
              if (a + b + c + d === data.length) {
-                const A: number = parseInt(data.substring(0, a), 10);
+                const A = parseInt(data.substring(0, a), 10);
-                const B: number = parseInt(data.substring(a, a + b), 10);
+                const B = parseInt(data.substring(a, a + b), 10);
-                const C: number = parseInt(data.substring(a + b, a + b + c), 10);
+                const C = parseInt(data.substring(a + b, a + b + c), 10);
-                const D: number = parseInt(data.substring(a + b + c, a + b + c + d), 10);
+                const D = parseInt(data.substring(a + b + c, a + b + c + d), 10);
                if (A <= 255 && B <= 255 && C <= 255 && D <= 255) {
                  const ip: string = [A.toString(), ".", B.toString(), ".", C.toString(), ".", D.toString()].join("");
                  if (ip.length === data.length + 3) {
@ -533,7 +546,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (data: number[]): string => {
+    desc: (_data: unknown): string => {
      const data = _data as number[];
      return [
        "You are given the following array of stock prices (which are numbers)",
        "where the i-th element represents the stock price on day i:\n\n",
@ -557,7 +571,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Algorithmic Stock Trader I",
    numTries: 5,
-    solver: (data: number[], ans: string): boolean => {
+    solver: (_data: unknown, ans: string): boolean => {
      const data = _data as number[];
      let maxCur = 0;
      let maxSoFar = 0;
      for (let i = 1; i < data.length; ++i) {
@ -569,7 +584,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (data: number[]): string => {
+    desc: (_data: unknown): string => {
      const data = _data as number[];
      return [
        "You are given the following array of stock prices (which are numbers)",
        "where the i-th element represents the stock price on day i:\n\n",
@ -595,7 +611,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Algorithmic Stock Trader II",
    numTries: 10,
-    solver: (data: number[], ans: string): boolean => {
+    solver: (_data: unknown, ans: string): boolean => {
      const data = _data as number[];
      let profit = 0;
      for (let p = 1; p < data.length; ++p) {
        profit += Math.max(data[p] - data[p - 1], 0);
@ -605,7 +622,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (data: number[]): string => {
+    desc: (_data: unknown): string => {
      const data = _data as number[];
      return [
        "You are given the following array of stock prices (which are numbers)",
        "where the i-th element represents the stock price on day i:\n\n",
@ -631,9 +649,10 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Algorithmic Stock Trader III",
    numTries: 10,
-    solver: (data: number[], ans: string): boolean => {
+    solver: (_data: unknown, ans: string): boolean => {
-      let hold1: number = Number.MIN_SAFE_INTEGER;
+      const data = _data as number[];
-      let hold2: number = Number.MIN_SAFE_INTEGER;
+      let hold1 = Number.MIN_SAFE_INTEGER;
      let hold2 = Number.MIN_SAFE_INTEGER;
      let release1 = 0;
      let release2 = 0;
      for (const price of data) {
@ -647,9 +666,10 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (data: any[]): string => {
+    desc: (_data: unknown): string => {
-      const k: number = data[0];
+      const data = _data as [number, number[]];
-      const prices: number[] = data[1];
+      const k = data[0];
      const prices = data[1];
      return [
        "You are given the following array with two elements:\n\n",
        `[${k}, [${prices}]]\n\n`,
@ -665,9 +685,9 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
      ].join(" ");
    },
    difficulty: 8,
-    gen: (): any[] => {
+    gen: (): [number, number[]] => {
-      const k: number = getRandomInt(2, 10);
+      const k = getRandomInt(2, 10);
-      const len: number = getRandomInt(3, 50);
+      const len = getRandomInt(3, 50);
      const prices: number[] = [];
      prices.length = len;
      for (let i = 0; i < len; ++i) {
@ -678,7 +698,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Algorithmic Stock Trader IV",
    numTries: 10,
-    solver: (data: any[], ans: string): boolean => {
+    solver: (_data: unknown, ans: string): boolean => {
      const data = _data as [number, number[]];
      const k: number = data[0];
      const prices: number[] = data[1];
@ -717,7 +738,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (data: number[][]): string => {
+    desc: (_data: unknown): string => {
      const data = _data as number[][];
      function createTriangleRecurse(data: number[][], level = 0): string {
        const numLevels: number = data.length;
        if (level >= numLevels) {
@ -771,7 +793,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Minimum Path Sum in a Triangle",
    numTries: 10,
-    solver: (data: number[][], ans: string): boolean => {
+    solver: (_data: unknown, ans: string): boolean => {
      const data = _data as number[][];
      const n: number = data.length;
      const dp: number[] = data[n - 1].slice();
      for (let i = n - 2; i > -1; --i) {
@ -784,7 +807,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (data: number[]): string => {
+    desc: (_data: unknown): string => {
      const data = _data as number[];
      const numRows = data[0];
      const numColumns = data[1];
      return [
@ -808,7 +832,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Unique Paths in a Grid I",
    numTries: 10,
-    solver: (data: number[], ans: string): boolean => {
+    solver: (_data: unknown, ans: string): boolean => {
      const data = _data as number[];
      const n: number = data[0]; // Number of rows
      const m: number = data[1]; // Number of columns
      const currentRow: number[] = [];
@ -827,7 +852,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (data: number[][]): string => {
+    desc: (_data: unknown): string => {
      const data = _data as number[][];
      let gridString = "";
      for (const line of data) {
        gridString += `${line.toString()},\n`;
@ -876,7 +902,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Unique Paths in a Grid II",
    numTries: 10,
-    solver: (data: number[][], ans: string): boolean => {
+    solver: (_data: unknown, ans: string): boolean => {
      const data = _data as number[][];
      const obstacleGrid: number[][] = [];
      obstacleGrid.length = data.length;
      for (let i = 0; i < obstacleGrid.length; ++i) {
@ -900,7 +927,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
  },
  {
    name: "Shortest Path in a Grid",
-    desc: (data: number[][]): string => {
+    desc: (_data: unknown): string => {
      const data = _data as number[][];
      return [
        "You are located in the top-left corner of the following grid:\n\n",
        `&nbsp;&nbsp;[${data.map((line) => "[" + line + "]").join(",\n&nbsp;&nbsp;&nbsp;")}]\n\n`,
@ -950,7 +978,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
      return grid;
    },
-    solver: (data: number[][], ans: string): boolean => {
+    solver: (_data: unknown, ans: string): boolean => {
      const data = _data as number[][];
      const width = data[0].length;
      const height = data.length;
      const dstY = height - 1;
@ -1033,7 +1062,7 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (data: string): string => {
+    desc: (data: unknown): string => {
      return [
        "Given the following string:\n\n",
        `${data}\n\n`,
@ -1073,7 +1102,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Sanitize Parentheses in Expression",
    numTries: 10,
-    solver: (data: string, ans: string): boolean => {
+    solver: (data: unknown, ans: string): boolean => {
      if (typeof data !== "string") throw new Error("solver expected string");
      let left = 0;
      let right = 0;
      const res: string[] = [];
@ -1141,7 +1171,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
  },
  {
-    desc: (data: any[]): string => {
+    desc: (_data: unknown): string => {
      const data = _data as [string, number];
      const digits: string = data[0];
      const target: number = data[1];
@ -1166,7 +1197,7 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
      ].join(" ");
    },
    difficulty: 10,
-    gen: (): any[] => {
+    gen: (): [string, number] => {
      const numDigits = getRandomInt(4, 12);
      const digitsArray: string[] = [];
      digitsArray.length = numDigits;
@ -1185,9 +1216,10 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    },
    name: "Find All Valid Math Expressions",
    numTries: 10,
-    solver: (data: any[], ans: string): boolean => {
+    solver: (_data: unknown, ans: string): boolean => {
-      const num: string = data[0];
+      const data = _data as [string, number];
-      const target: number = data[1];
+      const num = data[0];
      const target = data[1];
      function helper(
        res: string[],
@ -1253,7 +1285,7 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    name: "HammingCodes: Integer to Encoded Binary",
    numTries: 10,
    difficulty: 5,
-    desc: (n: number): string => {
+    desc: (n: unknown): string => {
      return [
        "You are given the following decimal Value: \n",
        `${n} \n`,
@ -1272,7 +1304,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    gen: (): number => {
      return getRandomInt(Math.pow(2, 4), Math.pow(2, getRandomInt(1, 57)));
    },
-    solver: (data: number, ans: string): boolean => {
+    solver: (data: unknown, ans: string): boolean => {
      if (typeof data !== "number") throw new Error("solver expected number");
      return ans === HammingEncode(data);
    },
  },
@ -1280,7 +1313,7 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    name: "HammingCodes: Encoded Binary to Integer",
    difficulty: 8,
    numTries: 10,
-    desc: (n: string): string => {
+    desc: (n: unknown): string => {
      return [
        "You are given the following encoded binary string: \n",
        `'${n}' \n`,
@ -1304,7 +1337,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
      }
      return _buildArray.join("");
    },
-    solver: (data: string, ans: string): boolean => {
+    solver: (data: unknown, ans: string): boolean => {
      if (typeof data !== "string") throw new Error("solver expected string");
      return parseInt(ans, 10) === HammingDecode(data);
    },
  },
@ -1312,7 +1346,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    name: "Proper 2-Coloring of a Graph",
    difficulty: 7,
    numTries: 5,
-    desc: (data: [number, [number, number][]]): string => {
+    desc: (_data: unknown): string => {
      const data = _data as [number, [number, number][]];
      return [
        `You are given the following data, representing a graph:\n`,
        `${JSON.stringify(data)}\n`,
@ -1359,7 +1394,7 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
      }
      //Randomize array in-place using Durstenfeld shuffle algorithm.
-      function shuffle(array: any[]): void {
+      function shuffle<T>(array: T[]): void {
        for (let i = array.length - 1; i > 0; i--) {
          const j = Math.floor(Math.random() * (i + 1));
          [array[i], array[j]] = [array[j], array[i]];
@ -1382,7 +1417,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
      return [n + m, edges];
    },
-    solver: (data: [number, [number, number][]], ans: string): boolean => {
+    solver: (_data: unknown, ans: string): boolean => {
      const data = _data as [number, [number, number][]];
      //Case where the player believes there is no solution.
      //Attempt to construct one to check if this is correct.
      if (ans == "[]") {
@ -1463,7 +1499,7 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    name: "Compression I: RLE Compression",
    difficulty: 2,
    numTries: 10,
-    desc: (plaintext: string): string => {
+    desc: (plaintext: unknown): string => {
      return [
        "Run-length encoding (RLE) is a data compression technique which encodes data as a series of runs of",
        "a repeated single character. Runs are encoded as a length, followed by the character itself. Lengths",
@ -1503,7 +1539,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
      return plain.substring(0, length);
    },
-    solver: (plain: string, ans: string): boolean => {
+    solver: (plain: unknown, ans: string): boolean => {
      if (typeof plain !== "string") throw new Error("solver expected string");
      if (ans.length % 2 !== 0) {
        return false;
      }
@ -1542,7 +1579,7 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    name: "Compression II: LZ Decompression",
    difficulty: 4,
    numTries: 10,
-    desc: (compressed: string): string => {
+    desc: (compressed: unknown): string => {
      return [
        "Lempel-Ziv (LZ) compression is a data compression technique which encodes data using references to",
        "earlier parts of the data. In this variant of LZ, data is encoded in two types of chunk. Each chunk",
@ -1569,7 +1606,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    gen: (): string => {
      return comprLZEncode(comprLZGenerate());
    },
-    solver: (compr: string, ans: string): boolean => {
+    solver: (compr: unknown, ans: string): boolean => {
      if (typeof compr !== "string") throw new Error("solver expected string");
      return ans === comprLZDecode(compr);
    },
  },
@ -1577,7 +1615,7 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    name: "Compression III: LZ Compression",
    difficulty: 10,
    numTries: 10,
-    desc: (plaintext: string): string => {
+    desc: (plaintext: unknown): string => {
      return [
        "Lempel-Ziv (LZ) compression is a data compression technique which encodes data using references to",
        "earlier parts of the data. In this variant of LZ, data is encoded in two types of chunk. Each chunk",
@ -1607,7 +1645,8 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
    gen: (): string => {
      return comprLZGenerate();
    },
-    solver: (plain: string, ans: string): boolean => {
+    solver: (plain: unknown, ans: string): boolean => {
      if (typeof plain !== "string") throw new Error("solver expected string");
      return comprLZDecode(ans) === plain && ans.length <= comprLZEncode(plain).length;
    },
  },