const chai = require("chai"); const assert = chai.assert; import { puzzlesAndSolutions, invalidStrings, wrongLengthStrings, } from "../controllers/puzzle-strings"; const Solver = require("../controllers/sudoku-solver.js"); let solver = new Solver(); suite("Unit Tests", () => { suite("Validation", () => { test("Logic handles a valid puzzle string of 81 characters", () => { for (let i in puzzlesAndSolutions) { assert.isTrue(solver.validate(puzzlesAndSolutions[i][0])); } }); test("Logic handles a puzzle string with invalid characters (not 1-9 or .)", () => { for (let i in invalidStrings) { assert.equal( solver.validate(invalidStrings[i]).error, "Invalid characters in puzzle", invalidStrings[i] ); } }); test("Logic handles a puzzle string that is not 81 characters in length", () => { for (let i in wrongLengthStrings) { assert.equal( solver.validate(wrongLengthStrings[i]).error, "Expected puzzle to be 81 characters long" ); } }); }); suite("Placement Checks", () => { test("Logic handles a valid row placement", () => { const checks = [ solver.checkRowPlacement(puzzlesAndSolutions[0][0], 0, 3, 3), solver.checkRowPlacement(puzzlesAndSolutions[1][0], 0, 3, 6), solver.checkRowPlacement(puzzlesAndSolutions[2][0], 0, 2, 2), ]; for (let i in checks) { assert.isTrue(checks[i]); } }); test("Logic handles an invalid row placement", () => { const checks = [ solver.checkRowPlacement(puzzlesAndSolutions[0][0], 0, 3, 5), solver.checkRowPlacement(puzzlesAndSolutions[1][0], 0, 3, 1), solver.checkRowPlacement(puzzlesAndSolutions[2][0], 0, 2, 3), ]; for (let i in checks) { assert.isFalse(checks[i]); } }); test("Login handles a valid column placement", () => { const checks = [ solver.checkColPlacement(puzzlesAndSolutions[0][0], 0, 1, 3), solver.checkColPlacement(puzzlesAndSolutions[1][0], 0, 1, 6), solver.checkColPlacement(puzzlesAndSolutions[2][0], 0, 0, 2), ]; for (let i in checks) { assert.isTrue(checks[i]); } }); test("Logic handles an invalid column placement", () => { const checks = [ solver.checkColPlacement(puzzlesAndSolutions[0][0], 1, 1, 9), solver.checkColPlacement(puzzlesAndSolutions[1][0], 1, 1, 8), solver.checkColPlacement(puzzlesAndSolutions[2][0], 2, 2, 2), ]; for (let i in checks) { assert.isFalse(checks[i]); } }); test("Logic handles a valid region (3x3 grid) placement", () => { const checks = [ solver.checkRegionPlacement(puzzlesAndSolutions[0][0], 0, 1, 3), solver.checkRegionPlacement(puzzlesAndSolutions[1][0], 0, 1, 6), solver.checkRegionPlacement(puzzlesAndSolutions[2][0], 0, 0, 2), ]; for (let i in checks) { assert.isTrue(checks[i]); } }); test("Logic handles an invalid region (3x3 grid) placement", () => { const checks = [ solver.checkRegionPlacement(puzzlesAndSolutions[0][0], 2, 2, 5), solver.checkRegionPlacement(puzzlesAndSolutions[1][0], 2, 2, 5), solver.checkRegionPlacement(puzzlesAndSolutions[2][0], 2, 2, 5), ]; for (let i in checks) { assert.isFalse(checks[i]); } }); }); suite("Solver", () => { test("Valid puzzle strings pass the solver", () => { for (let i in puzzlesAndSolutions) { assert.equal( solver.solve(puzzlesAndSolutions[i][0]).solution, puzzlesAndSolutions[i][1] ); } }); test("Invalid puzzle strings fail the solver", () => { for (let i in invalidStrings) { assert.equal( solver.solve(invalidStrings[i]).error, "Invalid characters in puzzle", "invalid characters" ); } }); test("Solver returns the expected solution for an incomplete puzzle", () => { for (let i in puzzlesAndSolutions) { assert.equal( solver.solve(puzzlesAndSolutions[i][0]).solution, puzzlesAndSolutions[i][1] ); } }); }); });