'use strict'; const common = require('../common'); const assert = require('assert'); const util = require('util'); const vm = require('vm'); assert.strictEqual(util.inspect(1), '1'); assert.strictEqual(util.inspect(false), 'false'); assert.strictEqual(util.inspect(''), "''"); assert.strictEqual(util.inspect('hello'), "'hello'"); assert.strictEqual(util.inspect(function() {}), '[Function]'); assert.strictEqual(util.inspect(async function() {}), '[AsyncFunction]'); assert.strictEqual(util.inspect(function*() {}), '[GeneratorFunction]'); assert.strictEqual(util.inspect(undefined), 'undefined'); assert.strictEqual(util.inspect(null), 'null'); assert.strictEqual(util.inspect(/foo(bar\n)?/gi), '/foo(bar\\n)?/gi'); assert.strictEqual( util.inspect(new Date('Sun, 14 Feb 2010 11:48:40 GMT')), new Date('2010-02-14T12:48:40+01:00').toISOString() ); assert.strictEqual(util.inspect(new Date('')), (new Date('')).toString()); assert.strictEqual(util.inspect('\n\u0001'), "'\\n\\u0001'"); assert.strictEqual(util.inspect([]), '[]'); assert.strictEqual(util.inspect(Object.create([])), 'Array {}'); assert.strictEqual(util.inspect([1, 2]), '[ 1, 2 ]'); assert.strictEqual(util.inspect([1, [2, 3]]), '[ 1, [ 2, 3 ] ]'); assert.strictEqual(util.inspect({}), '{}'); assert.strictEqual(util.inspect({a: 1}), '{ a: 1 }'); assert.strictEqual(util.inspect({a: function() {}}), '{ a: [Function: a] }'); assert.strictEqual(util.inspect({a: async function() {}}), '{ a: [AsyncFunction: a] }'); assert.strictEqual(util.inspect({a: function*() {}}), '{ a: [GeneratorFunction: a] }'); assert.strictEqual(util.inspect({a: 1, b: 2}), '{ a: 1, b: 2 }'); assert.strictEqual(util.inspect({'a': {}}), '{ a: {} }'); assert.strictEqual(util.inspect({'a': {'b': 2}}), '{ a: { b: 2 } }'); assert.strictEqual(util.inspect({'a': {'b': { 'c': { 'd': 2 }}}}), '{ a: { b: { c: [Object] } } }'); assert.strictEqual(util.inspect({'a': {'b': { 'c': { 'd': 2 }}}}, false, null), '{ a: { b: { c: { d: 2 } } } }'); assert.strictEqual(util.inspect([1, 2, 3], true), '[ 1, 2, 3, [length]: 3 ]'); assert.strictEqual(util.inspect({'a': {'b': { 'c': 2}}}, false, 0), '{ a: [Object] }'); assert.strictEqual(util.inspect({'a': {'b': { 'c': 2}}}, false, 1), '{ a: { b: [Object] } }'); assert.strictEqual(util.inspect(Object.create({}, {visible: {value: 1, enumerable: true}, hidden: {value: 2}})), '{ visible: 1 }' ); { const regexp = /regexp/; regexp.aprop = 42; assert.strictEqual(util.inspect({a: regexp}, false, 0), '{ a: /regexp/ }'); } assert(/Object/.test( util.inspect({a: {a: {a: {a: {}}}}}, undefined, undefined, true) )); assert(!/Object/.test( util.inspect({a: {a: {a: {a: {}}}}}, undefined, null, true) )); for (const showHidden of [true, false]) { const ab = new ArrayBuffer(4); const dv = new DataView(ab, 1, 2); assert.strictEqual( util.inspect(ab, showHidden), 'ArrayBuffer { byteLength: 4 }' ); assert.strictEqual(util.inspect(new DataView(ab, 1, 2), showHidden), 'DataView {\n' + ' byteLength: 2,\n' + ' byteOffset: 1,\n' + ' buffer: ArrayBuffer { byteLength: 4 } }'); assert.strictEqual( util.inspect(ab, showHidden), 'ArrayBuffer { byteLength: 4 }' ); assert.strictEqual(util.inspect(dv, showHidden), 'DataView {\n' + ' byteLength: 2,\n' + ' byteOffset: 1,\n' + ' buffer: ArrayBuffer { byteLength: 4 } }'); ab.x = 42; dv.y = 1337; assert.strictEqual(util.inspect(ab, showHidden), 'ArrayBuffer { byteLength: 4, x: 42 }'); assert.strictEqual(util.inspect(dv, showHidden), 'DataView {\n' + ' byteLength: 2,\n' + ' byteOffset: 1,\n' + ' buffer: ArrayBuffer { byteLength: 4, x: 42 },\n' + ' y: 1337 }'); } // Now do the same checks but from a different context for (const showHidden of [true, false]) { const ab = vm.runInNewContext('new ArrayBuffer(4)'); const dv = vm.runInNewContext('new DataView(ab, 1, 2)', { ab: ab }); assert.strictEqual( util.inspect(ab, showHidden), 'ArrayBuffer { byteLength: 4 }' ); assert.strictEqual(util.inspect(new DataView(ab, 1, 2), showHidden), 'DataView {\n' + ' byteLength: 2,\n' + ' byteOffset: 1,\n' + ' buffer: ArrayBuffer { byteLength: 4 } }'); assert.strictEqual( util.inspect(ab, showHidden), 'ArrayBuffer { byteLength: 4 }' ); assert.strictEqual(util.inspect(dv, showHidden), 'DataView {\n' + ' byteLength: 2,\n' + ' byteOffset: 1,\n' + ' buffer: ArrayBuffer { byteLength: 4 } }'); ab.x = 42; dv.y = 1337; assert.strictEqual(util.inspect(ab, showHidden), 'ArrayBuffer { byteLength: 4, x: 42 }'); assert.strictEqual(util.inspect(dv, showHidden), 'DataView {\n' + ' byteLength: 2,\n' + ' byteOffset: 1,\n' + ' buffer: ArrayBuffer { byteLength: 4, x: 42 },\n' + ' y: 1337 }'); } [ Float32Array, Float64Array, Int16Array, Int32Array, Int8Array, Uint16Array, Uint32Array, Uint8Array, Uint8ClampedArray ].forEach((constructor) => { const length = 2; const byteLength = length * constructor.BYTES_PER_ELEMENT; const array = new constructor(new ArrayBuffer(byteLength), 0, length); array[0] = 65; array[1] = 97; assert.strictEqual( util.inspect(array, true), `${constructor.name} [\n` + ' 65,\n' + ' 97,\n' + ` [BYTES_PER_ELEMENT]: ${constructor.BYTES_PER_ELEMENT},\n` + ` [length]: ${length},\n` + ` [byteLength]: ${byteLength},\n` + ' [byteOffset]: 0,\n' + ` [buffer]: ArrayBuffer { byteLength: ${byteLength} } ]`); assert.strictEqual( util.inspect(array, false), `${constructor.name} [ 65, 97 ]` ); }); // Now check that declaring a TypedArray in a different context works the same [ Float32Array, Float64Array, Int16Array, Int32Array, Int8Array, Uint16Array, Uint32Array, Uint8Array, Uint8ClampedArray ].forEach((constructor) => { const length = 2; const byteLength = length * constructor.BYTES_PER_ELEMENT; const array = vm.runInNewContext( 'new constructor(new ArrayBuffer(byteLength), 0, length)', { constructor, byteLength, length } ); array[0] = 65; array[1] = 97; assert.strictEqual( util.inspect(array, true), `${constructor.name} [\n` + ' 65,\n' + ' 97,\n' + ` [BYTES_PER_ELEMENT]: ${constructor.BYTES_PER_ELEMENT},\n` + ` [length]: ${length},\n` + ` [byteLength]: ${byteLength},\n` + ' [byteOffset]: 0,\n' + ` [buffer]: ArrayBuffer { byteLength: ${byteLength} } ]`); assert.strictEqual( util.inspect(array, false), `${constructor.name} [ 65, 97 ]` ); }); // Due to the hash seed randomization it's not deterministic the order that // the following ways this hash is displayed. // See http://codereview.chromium.org/9124004/ { const out = util.inspect(Object.create({}, {visible: {value: 1, enumerable: true}, hidden: {value: 2}}), true); if (out !== '{ [hidden]: 2, visible: 1 }' && out !== '{ visible: 1, [hidden]: 2 }') { common.fail(`unexpected value for out ${out}`); } } // Objects without prototype { const out = util.inspect(Object.create(null, { name: {value: 'Tim', enumerable: true}, hidden: {value: 'secret'}}), true); if (out !== "{ [hidden]: 'secret', name: 'Tim' }" && out !== "{ name: 'Tim', [hidden]: 'secret' }") { common.fail(`unexpected value for out ${out}`); } } assert.strictEqual( util.inspect(Object.create(null, {name: {value: 'Tim', enumerable: true}, hidden: {value: 'secret'}})), '{ name: \'Tim\' }' ); // Dynamic properties assert.strictEqual(util.inspect({get readonly() {}}), '{ readonly: [Getter] }'); assert.strictEqual(util.inspect({get readwrite() {}, set readwrite(val) {}}), '{ readwrite: [Getter/Setter] }'); assert.strictEqual(util.inspect({set writeonly(val) {}}), '{ writeonly: [Setter] }'); let value = {}; value['a'] = value; assert.strictEqual(util.inspect(value), '{ a: [Circular] }'); // Array with dynamic properties value = [1, 2, 3]; Object.defineProperty( value, 'growingLength', { enumerable: true, get: () => { this.push(true); return this.length; } } ); assert.strictEqual(util.inspect(value), '[ 1, 2, 3, growingLength: [Getter] ]'); // Function with properties value = function() {}; value.aprop = 42; assert.strictEqual(util.inspect(value), '{ [Function: value] aprop: 42 }'); // Anonymous function with properties value = (() => function() {})(); value.aprop = 42; assert.strictEqual(util.inspect(value), '{ [Function] aprop: 42 }'); // Regular expressions with properties value = /123/ig; value.aprop = 42; assert.strictEqual(util.inspect(value), '{ /123/gi aprop: 42 }'); // Dates with properties value = new Date('Sun, 14 Feb 2010 11:48:40 GMT'); value.aprop = 42; assert.strictEqual(util.inspect(value), '{ 2010-02-14T11:48:40.000Z aprop: 42 }' ); // test the internal isDate implementation const Date2 = vm.runInNewContext('Date'); const d = new Date2(); const orig = util.inspect(d); Date2.prototype.foo = 'bar'; const after = util.inspect(d); assert.strictEqual(orig, after); // test positive/negative zero assert.strictEqual(util.inspect(0), '0'); assert.strictEqual(util.inspect(-0), '-0'); // test for sparse array const a = ['foo', 'bar', 'baz']; assert.strictEqual(util.inspect(a), '[ \'foo\', \'bar\', \'baz\' ]'); delete a[1]; assert.strictEqual(util.inspect(a), '[ \'foo\', , \'baz\' ]'); assert.strictEqual( util.inspect(a, true), '[ \'foo\', , \'baz\', [length]: 3 ]' ); assert.strictEqual(util.inspect(new Array(5)), '[ , , , , ]'); // test for Array constructor in different context { const Debug = vm.runInDebugContext('Debug'); const map = new Map(); map.set(1, 2); const mirror = Debug.MakeMirror(map.entries(), true); const vals = mirror.preview(); const valsOutput = []; for (const o of vals) { valsOutput.push(o); } assert.strictEqual(util.inspect(valsOutput), '[ [ 1, 2 ] ]'); } // test for other constructors in different context let obj = vm.runInNewContext('(function(){return {}})()', {}); assert.strictEqual(util.inspect(obj), '{}'); obj = vm.runInNewContext('var m=new Map();m.set(1,2);m', {}); assert.strictEqual(util.inspect(obj), 'Map { 1 => 2 }'); obj = vm.runInNewContext('var s=new Set();s.add(1);s.add(2);s', {}); assert.strictEqual(util.inspect(obj), 'Set { 1, 2 }'); obj = vm.runInNewContext('fn=function(){};new Promise(fn,fn)', {}); assert.strictEqual(util.inspect(obj), 'Promise { }'); // test for property descriptors const getter = Object.create(null, { a: { get: function() { return 'aaa'; } } }); const setter = Object.create(null, { b: { set: function() {} } }); const getterAndSetter = Object.create(null, { c: { get: function() { return 'ccc'; }, set: function() {} } }); assert.strictEqual(util.inspect(getter, true), '{ [a]: [Getter] }'); assert.strictEqual(util.inspect(setter, true), '{ [b]: [Setter] }'); assert.strictEqual( util.inspect(getterAndSetter, true), '{ [c]: [Getter/Setter] }' ); // exceptions should print the error message, not '{}' const errors = []; errors.push(new Error()); errors.push(new Error('FAIL')); errors.push(new TypeError('FAIL')); errors.push(new SyntaxError('FAIL')); errors.forEach(function(err) { assert.strictEqual(util.inspect(err), err.stack); }); try { undef(); // eslint-disable-line no-undef } catch (e) { assert.strictEqual(util.inspect(e), e.stack); } const ex = util.inspect(new Error('FAIL'), true); assert(ex.includes('Error: FAIL')); assert(ex.includes('[stack]')); assert(ex.includes('[message]')); // Doesn't capture stack trace function BadCustomError(msg) { Error.call(this); Object.defineProperty(this, 'message', { value: msg, enumerable: false }); Object.defineProperty(this, 'name', { value: 'BadCustomError', enumerable: false }); } util.inherits(BadCustomError, Error); assert.strictEqual( util.inspect(new BadCustomError('foo')), '[BadCustomError: foo]' ); // GH-1941 // should not throw: assert.strictEqual(util.inspect(Object.create(Date.prototype)), 'Date {}'); // GH-1944 assert.doesNotThrow(function() { const d = new Date(); d.toUTCString = null; util.inspect(d); }); assert.doesNotThrow(function() { const d = new Date(); d.toISOString = null; util.inspect(d); }); assert.doesNotThrow(function() { const r = /regexp/; r.toString = null; util.inspect(r); }); // bug with user-supplied inspect function returns non-string assert.doesNotThrow(function() { util.inspect([{ inspect: function() { return 123; } }]); }); // GH-2225 { const x = { inspect: util.inspect }; assert.strictEqual(util.inspect(x).includes('inspect'), true); } // util.inspect should not display the escaped value of a key. const w = { '\\': 1, '\\\\': 2, '\\\\\\': 3, '\\\\\\\\': 4, }; const y = ['a', 'b', 'c']; y['\\\\\\'] = 'd'; assert.strictEqual( util.inspect(w), '{ \'\\\': 1, \'\\\\\': 2, \'\\\\\\\': 3, \'\\\\\\\\\': 4 }' ); assert.strictEqual( util.inspect(y), '[ \'a\', \'b\', \'c\', \'\\\\\\\': \'d\' ]' ); // util.inspect.styles and util.inspect.colors function test_color_style(style, input, implicit) { const color_name = util.inspect.styles[style]; let color = ['', '']; if (util.inspect.colors[color_name]) color = util.inspect.colors[color_name]; const without_color = util.inspect(input, false, 0, false); const with_color = util.inspect(input, false, 0, true); const expect = '\u001b[' + color[0] + 'm' + without_color + '\u001b[' + color[1] + 'm'; assert.strictEqual( with_color, expect, `util.inspect color for style ${style}`); } test_color_style('special', function() {}); test_color_style('number', 123.456); test_color_style('boolean', true); test_color_style('undefined', undefined); test_color_style('null', null); test_color_style('string', 'test string'); test_color_style('date', new Date()); test_color_style('regexp', /regexp/); // an object with "hasOwnProperty" overwritten should not throw assert.doesNotThrow(function() { util.inspect({ hasOwnProperty: null }); }); // new API, accepts an "options" object { const subject = { foo: 'bar', hello: 31, a: { b: { c: { d: 0 } } } }; Object.defineProperty(subject, 'hidden', { enumerable: false, value: null }); assert.strictEqual( util.inspect(subject, { showHidden: false }).includes('hidden'), false ); assert.strictEqual( util.inspect(subject, { showHidden: true }).includes('hidden'), true ); assert.strictEqual( util.inspect(subject, { colors: false }).includes('\u001b[32m'), false ); assert.strictEqual( util.inspect(subject, { colors: true }).includes('\u001b[32m'), true ); assert.strictEqual( util.inspect(subject, { depth: 2 }).includes('c: [Object]'), true ); assert.strictEqual( util.inspect(subject, { depth: 0 }).includes('a: [Object]'), true ); assert.strictEqual( util.inspect(subject, { depth: null }).includes('{ d: 0 }'), true ); } { // "customInspect" option can enable/disable calling inspect() on objects const subject = { inspect: function() { return 123; } }; assert.strictEqual( util.inspect(subject, { customInspect: true }).includes('123'), true ); assert.strictEqual( util.inspect(subject, { customInspect: true }).includes('inspect'), false ); assert.strictEqual( util.inspect(subject, { customInspect: false }).includes('123'), false ); assert.strictEqual( util.inspect(subject, { customInspect: false }).includes('inspect'), true ); // custom inspect() functions should be able to return other Objects subject.inspect = function() { return { foo: 'bar' }; }; assert.strictEqual(util.inspect(subject), '{ foo: \'bar\' }'); subject.inspect = function(depth, opts) { assert.strictEqual(opts.customInspectOptions, true); }; util.inspect(subject, { customInspectOptions: true }); } { // "customInspect" option can enable/disable calling [util.inspect.custom]() const subject = { [util.inspect.custom]: function() { return 123; } }; assert.strictEqual( util.inspect(subject, { customInspect: true }).includes('123'), true ); assert.strictEqual( util.inspect(subject, { customInspect: false }).includes('123'), false ); // a custom [util.inspect.custom]() should be able to return other Objects subject[util.inspect.custom] = function() { return { foo: 'bar' }; }; assert.strictEqual(util.inspect(subject), '{ foo: \'bar\' }'); subject[util.inspect.custom] = function(depth, opts) { assert.strictEqual(opts.customInspectOptions, true); }; util.inspect(subject, { customInspectOptions: true }); } { // [util.inspect.custom] takes precedence over inspect const subject = { [util.inspect.custom]() { return 123; }, inspect() { return 456; } }; assert.strictEqual( util.inspect(subject, { customInspect: true }).includes('123'), true ); assert.strictEqual( util.inspect(subject, { customInspect: false }).includes('123'), false ); assert.strictEqual( util.inspect(subject, { customInspect: true }).includes('456'), false ); assert.strictEqual( util.inspect(subject, { customInspect: false }).includes('456'), false ); } { // Returning `this` from a custom inspection function works. assert.strictEqual(util.inspect({ a: 123, inspect() { return this; } }), '{ a: 123, inspect: [Function: inspect] }'); const subject = { a: 123, [util.inspect.custom]() { return this; } }; assert.strictEqual(util.inspect(subject), '{ a: 123 }'); } // util.inspect with "colors" option should produce as many lines as without it function test_lines(input) { const count_lines = function(str) { return (str.match(/\n/g) || []).length; }; const without_color = util.inspect(input); const with_color = util.inspect(input, {colors: true}); assert.strictEqual(count_lines(without_color), count_lines(with_color)); } test_lines([1, 2, 3, 4, 5, 6, 7]); test_lines(function() { const big_array = []; for (let i = 0; i < 100; i++) { big_array.push(i); } return big_array; }()); test_lines({foo: 'bar', baz: 35, b: {a: 35}}); test_lines({ foo: 'bar', baz: 35, b: {a: 35}, very_long_key: 'very_long_value', even_longer_key: ['with even longer value in array'] }); // test boxed primitives output the correct values assert.strictEqual(util.inspect(new String('test')), '[String: \'test\']'); assert.strictEqual( util.inspect(Object(Symbol('test'))), '[Symbol: Symbol(test)]' ); assert.strictEqual(util.inspect(new Boolean(false)), '[Boolean: false]'); assert.strictEqual(util.inspect(new Boolean(true)), '[Boolean: true]'); assert.strictEqual(util.inspect(new Number(0)), '[Number: 0]'); assert.strictEqual(util.inspect(new Number(-0)), '[Number: -0]'); assert.strictEqual(util.inspect(new Number(-1.1)), '[Number: -1.1]'); assert.strictEqual(util.inspect(new Number(13.37)), '[Number: 13.37]'); // test boxed primitives with own properties const str = new String('baz'); str.foo = 'bar'; assert.strictEqual(util.inspect(str), '{ [String: \'baz\'] foo: \'bar\' }'); const bool = new Boolean(true); bool.foo = 'bar'; assert.strictEqual(util.inspect(bool), '{ [Boolean: true] foo: \'bar\' }'); const num = new Number(13.37); num.foo = 'bar'; assert.strictEqual(util.inspect(num), '{ [Number: 13.37] foo: \'bar\' }'); // test es6 Symbol if (typeof Symbol !== 'undefined') { assert.strictEqual(util.inspect(Symbol()), 'Symbol()'); assert.strictEqual(util.inspect(Symbol(123)), 'Symbol(123)'); assert.strictEqual(util.inspect(Symbol('hi')), 'Symbol(hi)'); assert.strictEqual(util.inspect([Symbol()]), '[ Symbol() ]'); assert.strictEqual(util.inspect({ foo: Symbol() }), '{ foo: Symbol() }'); const options = { showHidden: true }; let subject = {}; subject[Symbol('symbol')] = 42; assert.strictEqual(util.inspect(subject), '{}'); assert.strictEqual( util.inspect(subject, options), '{ [Symbol(symbol)]: 42 }' ); subject = [1, 2, 3]; subject[Symbol('symbol')] = 42; assert.strictEqual(util.inspect(subject), '[ 1, 2, 3 ]'); assert.strictEqual(util.inspect(subject, options), '[ 1, 2, 3, [length]: 3, [Symbol(symbol)]: 42 ]'); } // test Set assert.strictEqual(util.inspect(new Set()), 'Set {}'); assert.strictEqual(util.inspect(new Set([1, 2, 3])), 'Set { 1, 2, 3 }'); const set = new Set(['foo']); set.bar = 42; assert.strictEqual( util.inspect(set, true), 'Set { \'foo\', [size]: 1, bar: 42 }' ); // test Map { assert.strictEqual(util.inspect(new Map()), 'Map {}'); assert.strictEqual(util.inspect(new Map([[1, 'a'], [2, 'b'], [3, 'c']])), 'Map { 1 => \'a\', 2 => \'b\', 3 => \'c\' }'); const map = new Map([['foo', null]]); map.bar = 42; assert.strictEqual(util.inspect(map, true), 'Map { \'foo\' => null, [size]: 1, bar: 42 }'); } // test Promise assert.strictEqual(util.inspect(Promise.resolve(3)), 'Promise { 3 }'); { const rejected = Promise.reject(3); assert.strictEqual(util.inspect(rejected), 'Promise { 3 }'); // squelch UnhandledPromiseRejection rejected.catch(() => {}); } assert.strictEqual( util.inspect(new Promise(function() {})), 'Promise { }' ); const promise = Promise.resolve('foo'); promise.bar = 42; assert.strictEqual(util.inspect(promise), 'Promise { \'foo\', bar: 42 }'); // Make sure it doesn't choke on polyfills. Unlike Set/Map, there is no standard // interface to synchronously inspect a Promise, so our techniques only work on // a bonafide native Promise. const oldPromise = Promise; global.Promise = function() { this.bar = 42; }; assert.strictEqual(util.inspect(new Promise()), '{ bar: 42 }'); global.Promise = oldPromise; // Map/Set Iterators const m = new Map([['foo', 'bar']]); assert.strictEqual(util.inspect(m.keys()), 'MapIterator { \'foo\' }'); assert.strictEqual(util.inspect(m.values()), 'MapIterator { \'bar\' }'); assert.strictEqual(util.inspect(m.entries()), 'MapIterator { [ \'foo\', \'bar\' ] }'); // make sure the iterator doesn't get consumed let keys = m.keys(); assert.strictEqual(util.inspect(keys), 'MapIterator { \'foo\' }'); assert.strictEqual(util.inspect(keys), 'MapIterator { \'foo\' }'); const s = new Set([1, 3]); assert.strictEqual(util.inspect(s.keys()), 'SetIterator { 1, 3 }'); assert.strictEqual(util.inspect(s.values()), 'SetIterator { 1, 3 }'); assert.strictEqual(util.inspect(s.entries()), 'SetIterator { [ 1, 1 ], [ 3, 3 ] }'); // make sure the iterator doesn't get consumed keys = s.keys(); assert.strictEqual(util.inspect(keys), 'SetIterator { 1, 3 }'); assert.strictEqual(util.inspect(keys), 'SetIterator { 1, 3 }'); // Test alignment of items in container // Assumes that the first numeric character is the start of an item. function checkAlignment(container) { const lines = util.inspect(container).split('\n'); let pos; lines.forEach(function(line) { const npos = line.search(/\d/); if (npos !== -1) { if (pos !== undefined) assert.strictEqual(pos, npos, 'container items not aligned'); pos = npos; } }); } const big_array = []; for (let i = 0; i < 100; i++) { big_array.push(i); } checkAlignment(big_array); checkAlignment(function() { const obj = {}; big_array.forEach(function(v) { obj[v] = null; }); return obj; }()); checkAlignment(new Set(big_array)); checkAlignment(new Map(big_array.map(function(y) { return [y, null]; }))); // Test display of constructors { class ObjectSubclass {} class ArraySubclass extends Array {} class SetSubclass extends Set {} class MapSubclass extends Map {} class PromiseSubclass extends Promise {} const x = new ObjectSubclass(); x.foo = 42; assert.strictEqual(util.inspect(x), 'ObjectSubclass { foo: 42 }'); assert.strictEqual(util.inspect(new ArraySubclass(1, 2, 3)), 'ArraySubclass [ 1, 2, 3 ]'); assert.strictEqual(util.inspect(new SetSubclass([1, 2, 3])), 'SetSubclass { 1, 2, 3 }'); assert.strictEqual(util.inspect(new MapSubclass([['foo', 42]])), 'MapSubclass { \'foo\' => 42 }'); assert.strictEqual(util.inspect(new PromiseSubclass(function() {})), 'PromiseSubclass { }'); } // Corner cases. { const x = { constructor: 42 }; assert.strictEqual(util.inspect(x), '{ constructor: 42 }'); } { const x = {}; Object.defineProperty(x, 'constructor', { get: function() { throw new Error('should not access constructor'); }, enumerable: true }); assert.strictEqual(util.inspect(x), '{ constructor: [Getter] }'); } { const x = new function() {}; // eslint-disable-line new-parens assert.strictEqual(util.inspect(x), '{}'); } { const x = Object.create(null); assert.strictEqual(util.inspect(x), '{}'); } // The following maxArrayLength tests were introduced after v6.0.0 was released. // Do not backport to v5/v4 unless all of // https://github.com/nodejs/node/pull/6334 is backported. { const x = Array(101); assert(/1 more item/.test(util.inspect(x))); } { const x = Array(101); assert(!/1 more item/.test(util.inspect(x, {maxArrayLength: 101}))); } { const x = Array(101); assert(/^\[ ... 101 more items ]$/.test( util.inspect(x, {maxArrayLength: 0}))); } { const x = new Uint8Array(101); assert(/1 more item/.test(util.inspect(x))); } { const x = new Uint8Array(101); assert(!/1 more item/.test(util.inspect(x, {maxArrayLength: 101}))); } { const x = new Uint8Array(101); assert(/\[ ... 101 more items ]$/.test( util.inspect(x, {maxArrayLength: 0}))); } { const x = Array(101); assert(!/1 more item/.test(util.inspect(x, {maxArrayLength: null}))); } { const x = Array(101); assert(!/1 more item/.test(util.inspect(x, {maxArrayLength: Infinity}))); } { const x = new Uint8Array(101); assert(!/1 more item/.test(util.inspect(x, {maxArrayLength: null}))); } { const x = new Uint8Array(101); assert(!/1 more item/.test(util.inspect(x, {maxArrayLength: Infinity}))); } { const obj = {foo: 'abc', bar: 'xyz'}; const oneLine = util.inspect(obj, {breakLength: Infinity}); // Subtract four for the object's two curly braces and two spaces of padding. // Add one more to satisfy the strictly greater than condition in the code. const breakpoint = oneLine.length - 5; const twoLines = util.inspect(obj, {breakLength: breakpoint}); assert.strictEqual(oneLine, '{ foo: \'abc\', bar: \'xyz\' }'); assert.strictEqual(oneLine, util.inspect(obj, {breakLength: breakpoint + 1})); assert.strictEqual(twoLines, '{ foo: \'abc\',\n bar: \'xyz\' }'); } // util.inspect.defaultOptions tests { const arr = Array(101); const obj = {a: {a: {a: {a: 1}}}}; const oldOptions = Object.assign({}, util.inspect.defaultOptions); // Set single option through property assignment util.inspect.defaultOptions.maxArrayLength = null; assert(!/1 more item/.test(util.inspect(arr))); util.inspect.defaultOptions.maxArrayLength = oldOptions.maxArrayLength; assert(/1 more item/.test(util.inspect(arr))); util.inspect.defaultOptions.depth = null; assert(!/Object/.test(util.inspect(obj))); util.inspect.defaultOptions.depth = oldOptions.depth; assert(/Object/.test(util.inspect(obj))); assert.strictEqual( JSON.stringify(util.inspect.defaultOptions), JSON.stringify(oldOptions) ); // Set multiple options through object assignment util.inspect.defaultOptions = {maxArrayLength: null, depth: null}; assert(!/1 more item/.test(util.inspect(arr))); assert(!/Object/.test(util.inspect(obj))); util.inspect.defaultOptions = oldOptions; assert(/1 more item/.test(util.inspect(arr))); assert(/Object/.test(util.inspect(obj))); assert.strictEqual( JSON.stringify(util.inspect.defaultOptions), JSON.stringify(oldOptions) ); assert.throws(() => { util.inspect.defaultOptions = null; }, /"options" must be an object/); assert.throws(() => { util.inspect.defaultOptions = 'bad'; }, /"options" must be an object/); } assert.doesNotThrow(() => util.inspect(process));