// deno-fmt-ignore-file // deno-lint-ignore-file // Copyright Joyent and Node contributors. All rights reserved. MIT license. // Taken from Node 16.13.0 // This file is automatically generated by "node/_tools/setup.ts". Do not modify this file manually "use strict"; // Confirm functionality of `util.isDeepStrictEqual()`. require("../common"); const assert = require("assert"); const util = require("util"); class MyDate extends Date { constructor(...args) { super(...args); this[0] = "1"; } } class MyRegExp extends RegExp { constructor(...args) { super(...args); this[0] = "1"; } } { const arr = new Uint8Array([120, 121, 122, 10]); const buf = Buffer.from(arr); // They have different [[Prototype]] assert.strictEqual(util.isDeepStrictEqual(arr, buf), false); const buf2 = Buffer.from(arr); buf2.prop = 1; assert.strictEqual(util.isDeepStrictEqual(buf2, buf), false); const arr2 = new Uint8Array([120, 121, 122, 10]); arr2.prop = 5; assert.strictEqual(util.isDeepStrictEqual(arr, arr2), false); } { const date = new Date("2016"); const date2 = new MyDate("2016"); // deepStrictEqual checks own properties assert.strictEqual(util.isDeepStrictEqual(date, date2), false); assert.strictEqual(util.isDeepStrictEqual(date2, date), false); } { const re1 = new RegExp("test"); const re2 = new MyRegExp("test"); // deepStrictEqual checks all properties assert.strictEqual(util.isDeepStrictEqual(re1, re2), false); } { // For these cases, deepStrictEqual should throw. const similar = new Set([ { 0: "1" }, // Object { 0: 1 }, // Object new String("1"), // Object ["1"], // Array [1], // Array new MyDate("2016"), // Date with this[0] = '1' new MyRegExp("test"), // RegExp with this[0] = '1' new Int8Array([1]), // Int8Array new Uint8Array([1]), // Uint8Array new Int16Array([1]), // Int16Array new Uint16Array([1]), // Uint16Array new Int32Array([1]), // Int32Array new Uint32Array([1]), // Uint32Array Buffer.from([1]), // Buffer ]); for (const a of similar) { for (const b of similar) { if (a !== b) { assert.strictEqual(util.isDeepStrictEqual(a, b), false); } } } } function utilIsDeepStrict(a, b) { assert.strictEqual(util.isDeepStrictEqual(a, b), true); assert.strictEqual(util.isDeepStrictEqual(b, a), true); } function notUtilIsDeepStrict(a, b) { assert.strictEqual(util.isDeepStrictEqual(a, b), false); assert.strictEqual(util.isDeepStrictEqual(b, a), false); } // es6 Maps and Sets utilIsDeepStrict(new Set(), new Set()); utilIsDeepStrict(new Map(), new Map()); utilIsDeepStrict(new Set([1, 2, 3]), new Set([1, 2, 3])); notUtilIsDeepStrict(new Set([1, 2, 3]), new Set([1, 2, 3, 4])); notUtilIsDeepStrict(new Set([1, 2, 3, 4]), new Set([1, 2, 3])); utilIsDeepStrict(new Set(["1", "2", "3"]), new Set(["1", "2", "3"])); utilIsDeepStrict( new Set([ [1, 2], [3, 4], ]), new Set([ [3, 4], [1, 2], ]) ); { const a = [1, 2]; const b = [3, 4]; const c = [1, 2]; const d = [3, 4]; utilIsDeepStrict( { a: a, b: b, s: new Set([a, b]) }, { a: c, b: d, s: new Set([d, c]) } ); } utilIsDeepStrict( new Map([ [1, 1], [2, 2], ]), new Map([ [1, 1], [2, 2], ]) ); utilIsDeepStrict( new Map([ [1, 1], [2, 2], ]), new Map([ [2, 2], [1, 1], ]) ); notUtilIsDeepStrict( new Map([ [1, 1], [2, 2], ]), new Map([ [1, 2], [2, 1], ]) ); notUtilIsDeepStrict( new Map([ [[1], 1], [{}, 2], ]), new Map([ [[1], 2], [{}, 1], ]) ); notUtilIsDeepStrict(new Set([1]), [1]); notUtilIsDeepStrict(new Set(), []); notUtilIsDeepStrict(new Set(), {}); notUtilIsDeepStrict(new Map([["a", 1]]), { a: 1 }); notUtilIsDeepStrict(new Map(), []); notUtilIsDeepStrict(new Map(), {}); notUtilIsDeepStrict(new Set(["1"]), new Set([1])); notUtilIsDeepStrict(new Map([["1", "a"]]), new Map([[1, "a"]])); notUtilIsDeepStrict(new Map([["a", "1"]]), new Map([["a", 1]])); notUtilIsDeepStrict(new Map([["a", "1"]]), new Map([["a", 2]])); utilIsDeepStrict(new Set([{}]), new Set([{}])); // Ref: https://github.com/nodejs/node/issues/13347 notUtilIsDeepStrict( new Set([{ a: 1 }, { a: 1 }]), new Set([{ a: 1 }, { a: 2 }]) ); notUtilIsDeepStrict( new Set([{ a: 1 }, { a: 1 }, { a: 2 }]), new Set([{ a: 1 }, { a: 2 }, { a: 2 }]) ); notUtilIsDeepStrict( new Map([ [{ x: 1 }, 5], [{ x: 1 }, 5], ]), new Map([ [{ x: 1 }, 5], [{ x: 2 }, 5], ]) ); notUtilIsDeepStrict(new Set([3, "3"]), new Set([3, 4])); notUtilIsDeepStrict( new Map([ [3, 0], ["3", 0], ]), new Map([ [3, 0], [4, 0], ]) ); notUtilIsDeepStrict( new Set([{ a: 1 }, { a: 1 }, { a: 2 }]), new Set([{ a: 1 }, { a: 2 }, { a: 2 }]) ); // Mixed primitive and object keys utilIsDeepStrict( new Map([ [1, "a"], [{}, "a"], ]), new Map([ [1, "a"], [{}, "a"], ]) ); utilIsDeepStrict(new Set([1, "a", [{}, "a"]]), new Set([1, "a", [{}, "a"]])); // This is an awful case, where a map contains multiple equivalent keys: notUtilIsDeepStrict( new Map([ [1, "a"], ["1", "b"], ]), new Map([ ["1", "a"], [true, "b"], ]) ); notUtilIsDeepStrict(new Set(["a"]), new Set(["b"])); utilIsDeepStrict( new Map([ [{}, "a"], [{}, "b"], ]), new Map([ [{}, "b"], [{}, "a"], ]) ); notUtilIsDeepStrict( new Map([ [true, "a"], ["1", "b"], [1, "a"], ]), new Map([ ["1", "a"], [1, "b"], [true, "a"], ]) ); notUtilIsDeepStrict( new Map([ [true, "a"], ["1", "b"], [1, "c"], ]), new Map([ ["1", "a"], [1, "b"], [true, "a"], ]) ); // Similar object keys notUtilIsDeepStrict(new Set([{}, {}]), new Set([{}, 1])); notUtilIsDeepStrict( new Set([ [{}, 1], [{}, 1], ]), new Set([ [{}, 1], [1, 1], ]) ); notUtilIsDeepStrict( new Map([ [{}, 1], [{}, 1], ]), new Map([ [{}, 1], [1, 1], ]) ); notUtilIsDeepStrict( new Map([ [{}, 1], [true, 1], ]), new Map([ [{}, 1], [1, 1], ]) ); // Similar primitive key / values notUtilIsDeepStrict(new Set([1, true, false]), new Set(["1", 0, "0"])); notUtilIsDeepStrict( new Map([ [1, 5], [true, 5], [false, 5], ]), new Map([ ["1", 5], [0, 5], ["0", 5], ]) ); // Undefined value in Map utilIsDeepStrict(new Map([[1, undefined]]), new Map([[1, undefined]])); notUtilIsDeepStrict(new Map([[1, null]]), new Map([["1", undefined]])); notUtilIsDeepStrict(new Map([[1, undefined]]), new Map([[2, undefined]])); // null as key utilIsDeepStrict(new Map([[null, 3]]), new Map([[null, 3]])); notUtilIsDeepStrict(new Map([[null, undefined]]), new Map([[undefined, null]])); notUtilIsDeepStrict(new Set([null]), new Set([undefined])); // GH-6416. Make sure circular refs don't throw. { const b = {}; b.b = b; const c = {}; c.b = c; utilIsDeepStrict(b, c); const d = {}; d.a = 1; d.b = d; const e = {}; e.a = 1; e.b = {}; notUtilIsDeepStrict(d, e); } // GH-14441. Circular structures should be consistent { const a = {}; const b = {}; a.a = a; b.a = {}; b.a.a = a; utilIsDeepStrict(a, b); } { const a = new Set(); const b = new Set(); const c = new Set(); a.add(a); b.add(b); c.add(a); utilIsDeepStrict(b, c); } // GH-7178. Ensure reflexivity of deepEqual with `arguments` objects. { const args = (function () { return arguments; })(); notUtilIsDeepStrict([], args); } // More checking that arguments objects are handled correctly { // eslint-disable-next-line func-style const returnArguments = function () { return arguments; }; const someArgs = returnArguments("a"); const sameArgs = returnArguments("a"); const diffArgs = returnArguments("b"); notUtilIsDeepStrict(someArgs, ["a"]); notUtilIsDeepStrict(someArgs, { 0: "a" }); notUtilIsDeepStrict(someArgs, diffArgs); utilIsDeepStrict(someArgs, sameArgs); } { const values = [ 123, Infinity, 0, null, undefined, false, true, {}, [], () => {}, ]; utilIsDeepStrict(new Set(values), new Set(values)); utilIsDeepStrict(new Set(values), new Set(values.reverse())); const mapValues = values.map((v) => [v, { a: 5 }]); utilIsDeepStrict(new Map(mapValues), new Map(mapValues)); utilIsDeepStrict(new Map(mapValues), new Map(mapValues.reverse())); } { const s1 = new Set(); const s2 = new Set(); s1.add(1); s1.add(2); s2.add(2); s2.add(1); utilIsDeepStrict(s1, s2); } { const m1 = new Map(); const m2 = new Map(); const obj = { a: 5, b: 6 }; m1.set(1, obj); m1.set(2, "hi"); m1.set(3, [1, 2, 3]); m2.set(2, "hi"); // different order m2.set(1, obj); m2.set(3, [1, 2, 3]); // Deep equal, but not reference equal. utilIsDeepStrict(m1, m2); } { const m1 = new Map(); const m2 = new Map(); // m1 contains itself. m1.set(1, m1); m2.set(1, new Map()); notUtilIsDeepStrict(m1, m2); } { const map1 = new Map([[1, 1]]); const map2 = new Map([[1, "1"]]); assert.strictEqual(util.isDeepStrictEqual(map1, map2), false); } { // Two equivalent sets / maps with different key/values applied shouldn't be // the same. This is a terrible idea to do in practice, but deepEqual should // still check for it. const s1 = new Set(); const s2 = new Set(); s1.x = 5; notUtilIsDeepStrict(s1, s2); const m1 = new Map(); const m2 = new Map(); m1.x = 5; notUtilIsDeepStrict(m1, m2); } { // Circular references. const s1 = new Set(); s1.add(s1); const s2 = new Set(); s2.add(s2); utilIsDeepStrict(s1, s2); const m1 = new Map(); m1.set(2, m1); const m2 = new Map(); m2.set(2, m2); utilIsDeepStrict(m1, m2); const m3 = new Map(); m3.set(m3, 2); const m4 = new Map(); m4.set(m4, 2); utilIsDeepStrict(m3, m4); } // Handle sparse arrays utilIsDeepStrict([1, , , 3], [1, , , 3]); notUtilIsDeepStrict([1, , , 3], [1, , , 3, , ,]); // Handle different error messages { const err1 = new Error("foo1"); const err2 = new Error("foo2"); const err3 = new TypeError("foo1"); notUtilIsDeepStrict(err1, err2, assert.AssertionError); notUtilIsDeepStrict(err1, err3, assert.AssertionError); notUtilIsDeepStrict(err1, {}, assert.AssertionError); } // Handle NaN assert.strictEqual(util.isDeepStrictEqual(NaN, NaN), true); assert.strictEqual(util.isDeepStrictEqual({ a: NaN }, { a: NaN }), true); assert.strictEqual( util.isDeepStrictEqual([1, 2, NaN, 4], [1, 2, NaN, 4]), true ); // Handle boxed primitives { const boxedString = new String("test"); const boxedSymbol = Object(Symbol()); notUtilIsDeepStrict(new Boolean(true), Object(false)); notUtilIsDeepStrict(Object(true), new Number(1)); notUtilIsDeepStrict(new Number(2), new Number(1)); notUtilIsDeepStrict(boxedSymbol, Object(Symbol())); notUtilIsDeepStrict(boxedSymbol, {}); utilIsDeepStrict(boxedSymbol, boxedSymbol); utilIsDeepStrict(Object(true), Object(true)); utilIsDeepStrict(Object(2), Object(2)); utilIsDeepStrict(boxedString, Object("test")); boxedString.slow = true; notUtilIsDeepStrict(boxedString, Object("test")); boxedSymbol.slow = true; notUtilIsDeepStrict(boxedSymbol, {}); utilIsDeepStrict(Object(BigInt(1)), Object(BigInt(1))); notUtilIsDeepStrict(Object(BigInt(1)), Object(BigInt(2))); const booleanish = new Boolean(true); Object.defineProperty(booleanish, Symbol.toStringTag, { value: "String" }); Object.setPrototypeOf(booleanish, String.prototype); notUtilIsDeepStrict(booleanish, new String("true")); const numberish = new Number(42); Object.defineProperty(numberish, Symbol.toStringTag, { value: "String" }); Object.setPrototypeOf(numberish, String.prototype); notUtilIsDeepStrict(numberish, new String("42")); const stringish = new String("0"); Object.defineProperty(stringish, Symbol.toStringTag, { value: "Number" }); Object.setPrototypeOf(stringish, Number.prototype); notUtilIsDeepStrict(stringish, new Number(0)); const bigintish = new Object(BigInt(42)); Object.defineProperty(bigintish, Symbol.toStringTag, { value: "String" }); Object.setPrototypeOf(bigintish, String.prototype); notUtilIsDeepStrict(bigintish, new String("42")); const symbolish = new Object(Symbol("fhqwhgads")); Object.defineProperty(symbolish, Symbol.toStringTag, { value: "String" }); Object.setPrototypeOf(symbolish, String.prototype); notUtilIsDeepStrict(symbolish, new String("fhqwhgads")); } // Minus zero notUtilIsDeepStrict(0, -0); utilIsDeepStrict(-0, -0); // Handle symbols (enumerable only) { const symbol1 = Symbol(); const obj1 = { [symbol1]: 1 }; const obj2 = { [symbol1]: 1 }; const obj3 = { [Symbol()]: 1 }; const obj4 = {}; // Add a non enumerable symbol as well. It is going to be ignored! Object.defineProperty(obj2, Symbol(), { value: 1 }); Object.defineProperty(obj4, symbol1, { value: 1 }); notUtilIsDeepStrict(obj1, obj3); utilIsDeepStrict(obj1, obj2); notUtilIsDeepStrict(obj1, obj4); // TypedArrays have a fast path. Test for this as well. const a = new Uint8Array(4); const b = new Uint8Array(4); a[symbol1] = true; b[symbol1] = false; notUtilIsDeepStrict(a, b); b[symbol1] = true; utilIsDeepStrict(a, b); // The same as TypedArrays is valid for boxed primitives const boxedStringA = new String("test"); const boxedStringB = new String("test"); boxedStringA[symbol1] = true; notUtilIsDeepStrict(boxedStringA, boxedStringB); boxedStringA[symbol1] = true; utilIsDeepStrict(a, b); }