;(function() { 'use strict'; /** Used as a safe reference for `undefined` in pre-ES5 environments. */ var undefined; /** Used as the size to cover large array optimizations. */ var LARGE_ARRAY_SIZE = 200; /** Used as a reference to the global object. */ var root = (typeof global == 'object' && global) || this; /** Used for native method references. */ var arrayProto = Array.prototype; /** Method and object shortcuts. */ var phantom = root.phantom, argv = root.process && process.argv, document = !phantom && root.document, slice = arrayProto.slice, WeakMap = root.WeakMap; /** Math helpers. */ var add = function(x, y) { return x + y; }, isEven = function(n) { return n % 2 == 0; }, isEvenIndex = function(n, index) { return isEven(index); }, square = function(n) { return n * n; }; // Leak to avoid sporadic `noglobals` fails on Edge in Sauce Labs. root.msWDfn = undefined; /*--------------------------------------------------------------------------*/ /** Load QUnit and extras. */ var QUnit = root.QUnit || require('qunit-extras'); /** Load stable Lodash. */ var _ = root._ || require('../lodash.js'); var convert = (function() { var baseConvert = root.fp || require('../fp/_baseConvert.js'); if (!root.fp) { return function(name, func, options) { return baseConvert(_, name, func, options); }; } return function(name, func, options) { if (typeof name == 'function') { options = func; func = name; name = undefined; } return name === undefined ? baseConvert(func, options) : baseConvert(_.runInContext(), options)[name]; }; }()); var allFalseOptions = { 'cap': false, 'curry': false, 'fixed': false, 'immutable': false, 'rearg': false }; var fp = root.fp ? (fp = _.noConflict(), _ = root._, fp) : convert(_.runInContext()); var mapping = root.mapping || require('../fp/_mapping.js'); /*--------------------------------------------------------------------------*/ /** * Skips a given number of tests with a passing result. * * @private * @param {Object} assert The QUnit assert object. * @param {number} [count=1] The number of tests to skip. */ function skipAssert(assert, count) { count || (count = 1); while (count--) { assert.ok(true, 'test skipped'); } } /*--------------------------------------------------------------------------*/ if (argv) { console.log('Running lodash/fp tests.'); } QUnit.module('convert module'); (function() { QUnit.test('should work with `name` and `func`', function(assert) { assert.expect(2); var array = [1, 2, 3, 4], remove = convert('remove', _.remove), actual = remove(isEven)(array); assert.deepEqual(array, [1, 2, 3, 4]); assert.deepEqual(actual, [1, 3]); }); QUnit.test('should work with `name`, `func`, and `options`', function(assert) { assert.expect(3); var array = [1, 2, 3, 4], remove = convert('remove', _.remove, allFalseOptions); var actual = remove(array, function(n, index) { return isEven(index); }); assert.deepEqual(array, [2, 4]); assert.deepEqual(actual, [1, 3]); assert.deepEqual(remove(), []); }); QUnit.test('should work with an object', function(assert) { assert.expect(2); if (!document) { var array = [1, 2, 3, 4], lodash = convert({ 'remove': _.remove }), actual = lodash.remove(isEven)(array); assert.deepEqual(array, [1, 2, 3, 4]); assert.deepEqual(actual, [1, 3]); } else { skipAssert(assert, 2); } }); QUnit.test('should work with an object and `options`', function(assert) { assert.expect(3); if (!document) { var array = [1, 2, 3, 4], lodash = convert({ 'remove': _.remove }, allFalseOptions), actual = lodash.remove(array, isEvenIndex); assert.deepEqual(array, [2, 4]); assert.deepEqual(actual, [1, 3]); assert.deepEqual(lodash.remove(), []); } else { skipAssert(assert, 3); } }); QUnit.test('should work with lodash and `options`', function(assert) { assert.expect(3); var array = [1, 2, 3, 4], lodash = convert(_.runInContext(), allFalseOptions), actual = lodash.remove(array, isEvenIndex); assert.deepEqual(array, [2, 4]); assert.deepEqual(actual, [1, 3]); assert.deepEqual(lodash.remove(), []); }); QUnit.test('should work with `runInContext` and `options`', function(assert) { assert.expect(3); var array = [1, 2, 3, 4], runInContext = convert('runInContext', _.runInContext, allFalseOptions), lodash = runInContext(), actual = lodash.remove(array, isEvenIndex); assert.deepEqual(array, [2, 4]); assert.deepEqual(actual, [1, 3]); assert.deepEqual(lodash.remove(), []); }); QUnit.test('should accept a variety of options', function(assert) { assert.expect(8); var array = [1, 2, 3, 4], value = _.clone(array), remove = convert('remove', _.remove, { 'cap': false }), actual = remove(isEvenIndex)(value); assert.deepEqual(value, [1, 2, 3, 4]); assert.deepEqual(actual, [2, 4]); remove = convert('remove', _.remove, { 'curry': false }); actual = remove(isEven); assert.deepEqual(actual, []); var trim = convert('trim', _.trim, { 'fixed': false }); assert.strictEqual(trim('_-abc-_', '_-'), 'abc'); value = _.clone(array); remove = convert('remove', _.remove, { 'immutable': false }); actual = remove(isEven)(value); assert.deepEqual(value, [1, 3]); assert.deepEqual(actual, [2, 4]); value = _.clone(array); remove = convert('remove', _.remove, { 'rearg': false }); actual = remove(value)(isEven); assert.deepEqual(value, [1, 2, 3, 4]); assert.deepEqual(actual, [1, 3]); }); QUnit.test('should respect the `cap` option', function(assert) { assert.expect(1); var iteratee = convert('iteratee', _.iteratee, { 'cap': false }); var func = iteratee(function(a, b, c) { return [a, b, c]; }, 3); assert.deepEqual(func(1, 2, 3), [1, 2, 3]); }); QUnit.test('should respect the `rearg` option', function(assert) { assert.expect(1); var add = convert('add', _.add, { 'rearg': true }); assert.strictEqual(add('2')('1'), '12'); }); QUnit.test('should add a `placeholder` property', function(assert) { assert.expect(2); if (!document) { var lodash = convert({ 'add': _.add }); assert.strictEqual(lodash.placeholder, lodash); assert.strictEqual(lodash.add.placeholder, lodash); } else { skipAssert(assert, 2); } }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('method.convert'); (function() { QUnit.test('should exist on unconverted methods', function(assert) { assert.expect(2); var array = [], isArray = fp.isArray.convert({ 'curry': true }); assert.strictEqual(fp.isArray(array), true); assert.strictEqual(isArray()(array), true); }); QUnit.test('should convert method aliases', function(assert) { assert.expect(1); var all = fp.all.convert({ 'rearg': false }), actual = all([0])(_.identity); assert.strictEqual(actual, false); }); QUnit.test('should convert remapped methods', function(assert) { assert.expect(1); var extendAll = fp.extendAll.convert({ 'immutable': false }), object = {}; extendAll([object, { 'a': 1 }, { 'b': 2 }]); assert.deepEqual(object, { 'a': 1, 'b': 2 }); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('convert methods'); _.each(['fp.convert', 'method.convert'], function(methodName) { var isFp = methodName == 'fp.convert', func = isFp ? fp.convert : fp.remove.convert; QUnit.test('`' + methodName + '` should work with an object', function(assert) { assert.expect(3); var array = [1, 2, 3, 4], lodash = func(allFalseOptions), remove = isFp ? lodash.remove : lodash, actual = remove(array, isEvenIndex); assert.deepEqual(array, [2, 4]); assert.deepEqual(actual, [1, 3]); assert.deepEqual(remove(), []); }); QUnit.test('`' + methodName + '` should extend existing configs', function(assert) { assert.expect(2); var array = [1, 2, 3, 4], lodash = func({ 'cap': false }), remove = (isFp ? lodash.remove : lodash).convert({ 'rearg': false }), actual = remove(array)(isEvenIndex); assert.deepEqual(array, [1, 2, 3, 4]); assert.deepEqual(actual, [2, 4]); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('method arity checks'); (function() { QUnit.test('should wrap methods with an arity > `1`', function(assert) { assert.expect(1); var methodNames = _.filter(_.functions(fp), function(methodName) { return fp[methodName].length > 1; }); assert.deepEqual(methodNames, []); }); QUnit.test('should have >= arity of `aryMethod` designation', function(assert) { assert.expect(4); _.times(4, function(index) { var aryCap = index + 1; var methodNames = _.filter(mapping.aryMethod[aryCap], function(methodName) { var key = _.get(mapping.remap, methodName, methodName), arity = _[key].length; return arity != 0 && arity < aryCap; }); assert.deepEqual(methodNames, [], '`aryMethod[' + aryCap + ']`'); }); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('method aliases'); (function() { QUnit.test('should have correct aliases', function(assert) { assert.expect(1); var actual = _.transform(mapping.aliasToReal, function(result, realName, alias) { result.push([alias, fp[alias] === fp[realName]]); }, []); assert.deepEqual(_.reject(actual, 1), []); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('method ary caps'); (function() { QUnit.test('should have a cap of 1', function(assert) { assert.expect(1); var funcMethods = [ 'curry', 'iteratee', 'memoize', 'over', 'overEvery', 'overSome', 'method', 'methodOf', 'rest', 'runInContext' ]; var exceptions = funcMethods.concat('mixin', 'nthArg', 'template'), expected = _.map(mapping.aryMethod[1], _.constant(true)); var actual = _.map(mapping.aryMethod[1], function(methodName) { var arg = _.includes(funcMethods, methodName) ? _.noop : 1, result = _.attempt(function() { return fp[methodName](arg); }); if (_.includes(exceptions, methodName) ? typeof result == 'function' : typeof result != 'function' ) { return true; } console.log(methodName, result); return false; }); assert.deepEqual(actual, expected); }); QUnit.test('should have a cap of 2', function(assert) { assert.expect(1); var funcMethods = [ 'after', 'ary', 'before', 'bind', 'bindKey', 'curryN', 'debounce', 'delay', 'overArgs', 'partial', 'partialRight', 'rearg', 'throttle', 'wrap' ]; var exceptions = _.without(funcMethods.concat('matchesProperty'), 'delay'), expected = _.map(mapping.aryMethod[2], _.constant(true)); var actual = _.map(mapping.aryMethod[2], function(methodName) { var args = _.includes(funcMethods, methodName) ? [methodName == 'curryN' ? 1 : _.noop, _.noop] : [1, []], result = _.attempt(function() { return fp[methodName](args[0])(args[1]); }); if (_.includes(exceptions, methodName) ? typeof result == 'function' : typeof result != 'function' ) { return true; } console.log(methodName, result); return false; }); assert.deepEqual(actual, expected); }); QUnit.test('should have a cap of 3', function(assert) { assert.expect(1); var funcMethods = [ 'assignWith', 'extendWith', 'isEqualWith', 'isMatchWith', 'reduce', 'reduceRight', 'transform', 'zipWith' ]; var expected = _.map(mapping.aryMethod[3], _.constant(true)); var actual = _.map(mapping.aryMethod[3], function(methodName) { var args = _.includes(funcMethods, methodName) ? [_.noop, 0, 1] : [0, 1, []], result = _.attempt(function() { return fp[methodName](args[0])(args[1])(args[2]); }); if (typeof result != 'function') { return true; } console.log(methodName, result); return false; }); assert.deepEqual(actual, expected); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('methods that use `indexOf`'); (function() { QUnit.test('should work with `fp.indexOf`', function(assert) { assert.expect(10); var array = ['a', 'b', 'c'], other = ['b', 'd', 'b'], object = { 'a': 1, 'b': 2, 'c': 2 }, actual = fp.difference(array)(other); assert.deepEqual(actual, ['a', 'c'], 'fp.difference'); actual = fp.includes('b')(array); assert.strictEqual(actual, true, 'fp.includes'); actual = fp.intersection(other)(array); assert.deepEqual(actual, ['b'], 'fp.intersection'); actual = fp.omit(other)(object); assert.deepEqual(actual, { 'a': 1, 'c': 2 }, 'fp.omit'); actual = fp.union(other)(array); assert.deepEqual(actual, ['a', 'b', 'c', 'd'], 'fp.union'); actual = fp.uniq(other); assert.deepEqual(actual, ['b', 'd'], 'fp.uniq'); actual = fp.uniqBy(_.identity, other); assert.deepEqual(actual, ['b', 'd'], 'fp.uniqBy'); actual = fp.without(other)(array); assert.deepEqual(actual, ['a', 'c'], 'fp.without'); actual = fp.xor(other)(array); assert.deepEqual(actual, ['a', 'c', 'd'], 'fp.xor'); actual = fp.pull('b')(array); assert.deepEqual(actual, ['a', 'c'], 'fp.pull'); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('cherry-picked methods'); (function() { QUnit.test('should provide the correct `iteratee` arguments', function(assert) { assert.expect(4); var args, array = [1, 2, 3], object = { 'a': 1, 'b': 2 }, isFIFO = _.keys(object)[0] == 'a', map = convert('map', _.map), reduce = convert('reduce', _.reduce); map(function() { args || (args = slice.call(arguments)); })(array); assert.deepEqual(args, [1]); args = undefined; map(function() { args || (args = slice.call(arguments)); })(object); assert.deepEqual(args, isFIFO ? [1] : [2]); args = undefined; reduce(function() { args || (args = slice.call(arguments)); })(0)(array); assert.deepEqual(args, [0, 1]); args = undefined; reduce(function() { args || (args = slice.call(arguments)); })(0)(object); assert.deepEqual(args, isFIFO ? [0, 1] : [0, 2]); }); QUnit.test('should not support shortcut fusion', function(assert) { assert.expect(3); var array = fp.range(0, LARGE_ARRAY_SIZE), filterCount = 0, mapCount = 0; var iteratee = function(value) { mapCount++; return value * value; }; var predicate = function(value) { filterCount++; return isEven(value); }; var map1 = convert('map', _.map), filter1 = convert('filter', _.filter), take1 = convert('take', _.take); var filter2 = filter1(predicate), map2 = map1(iteratee), take2 = take1(2); var combined = fp.flow(map2, filter2, fp.compact, take2); assert.deepEqual(combined(array), [4, 16]); assert.strictEqual(filterCount, 200, 'filterCount'); assert.strictEqual(mapCount, 200, 'mapCount'); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('iteratee shorthands'); (function() { var objects = [{ 'a': 1, 'b': 2 }, { 'a': 3, 'b': 4 }]; QUnit.test('should work with "_.matches" shorthands', function(assert) { assert.expect(1); assert.deepEqual(fp.filter({ 'a': 3 })(objects), [objects[1]]); }); QUnit.test('should work with "_.matchesProperty" shorthands', function(assert) { assert.expect(1); assert.deepEqual(fp.filter(['a', 3])(objects), [objects[1]]); }); QUnit.test('should work with "_.property" shorthands', function(assert) { assert.expect(1); assert.deepEqual(fp.map('a')(objects), [1, 3]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('placeholder methods'); (function() { QUnit.test('should use `fp` as the default placeholder', function(assert) { assert.expect(3); var actual = fp.add(fp, 'b')('a'); assert.strictEqual(actual, 'ab'); actual = fp.fill(fp, 2)(1, '*')([1, 2, 3]); assert.deepEqual(actual, [1, '*', 3]); actual = fp.slice(fp, 2)(1)(['a', 'b', 'c']); assert.deepEqual(actual, ['b']); }); QUnit.test('should support `fp.placeholder`', function(assert) { assert.expect(6); _.each([[], fp.__], function(ph) { fp.placeholder = ph; var actual = fp.add(ph, 'b')('a'); assert.strictEqual(actual, 'ab'); actual = fp.fill(ph, 2)(1, '*')([1, 2, 3]); assert.deepEqual(actual, [1, '*', 3]); actual = fp.slice(ph, 2)(1)(['a', 'b', 'c']); assert.deepEqual(actual, ['b']); }); }); var methodNames = [ 'bind', 'bindKey', 'curry', 'curryRight', 'partial', 'partialRight' ]; _.each(methodNames, function(methodName) { var func = fp[methodName]; QUnit.test('fp.' + methodName + '` should have a `placeholder` property', function(assert) { assert.expect(2); assert.ok(_.isObject(func.placeholder)); assert.strictEqual(func.placeholder, fp.__); }); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('setter methods'); (function() { QUnit.test('should only clone objects in `path`', function(assert) { assert.expect(11); var object = { 'a': { 'b': 2, 'c': 3 }, 'd': { 'e': 4 } }, value = _.cloneDeep(object), actual = fp.set('a.b.c.d', 5, value); assert.ok(_.isObject(actual.a.b), 'fp.set'); assert.ok(_.isNumber(actual.a.b), 'fp.set'); assert.strictEqual(actual.a.b.c.d, 5, 'fp.set'); assert.strictEqual(actual.d, value.d, 'fp.set'); value = _.cloneDeep(object); actual = fp.setWith(Object)('[0][1]')('a')(value); assert.deepEqual(actual[0], { '1': 'a' }, 'fp.setWith'); value = _.cloneDeep(object); actual = fp.unset('a.b')(value); assert.notOk('b' in actual.a, 'fp.unset'); assert.strictEqual(actual.a.c, value.a.c, 'fp.unset'); value = _.cloneDeep(object); actual = fp.update('a.b')(square)(value); assert.strictEqual(actual.a.b, 4, 'fp.update'); assert.strictEqual(actual.d, value.d, 'fp.update'); value = _.cloneDeep(object); actual = fp.updateWith(Object)('[0][1]')(_.constant('a'))(value); assert.deepEqual(actual[0], { '1': 'a' }, 'fp.updateWith'); assert.strictEqual(actual.d, value.d, 'fp.updateWith'); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.add and fp.subtract'); _.each(['add', 'subtract'], function(methodName) { var func = fp[methodName], isAdd = methodName == 'add'; QUnit.test('`fp.' + methodName + '` should not have `rearg` applied', function(assert) { assert.expect(1); assert.strictEqual(func('1')('2'), isAdd ? '12' : -1); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('object assignments'); _.each(['assign', 'assignIn', 'defaults', 'defaultsDeep', 'merge'], function(methodName) { var func = fp[methodName]; QUnit.test('`fp.' + methodName + '` should not mutate values', function(assert) { assert.expect(2); var object = { 'a': 1 }, actual = func(object)({ 'b': 2 }); assert.deepEqual(object, { 'a': 1 }); assert.deepEqual(actual, { 'a': 1, 'b': 2 }); }); }); _.each(['assignAll', 'assignInAll', 'defaultsAll', 'defaultsDeepAll', 'mergeAll'], function(methodName) { var func = fp[methodName]; QUnit.test('`fp.' + methodName + '` should not mutate values', function(assert) { assert.expect(2); var objects = [{ 'a': 1 }, { 'b': 2 }], actual = func(objects); assert.deepEqual(objects[0], { 'a': 1 }); assert.deepEqual(actual, { 'a': 1, 'b': 2 }); }); }); _.each(['assignWith', 'assignInWith', 'extendWith'], function(methodName) { var func = fp[methodName]; QUnit.test('`fp.' + methodName + '` should provide the correct `customizer` arguments', function(assert) { assert.expect(1); var args; func(function() { args || (args = _.map(arguments, _.cloneDeep)); })({ 'a': 1 })({ 'b': 2 }); assert.deepEqual(args, [undefined, 2, 'b', { 'a': 1 }, { 'b': 2 }]); }); }); _.each(['assignAllWith', 'assignInAllWith', 'extendAllWith', 'mergeAllWith'], function(methodName) { var func = fp[methodName]; QUnit.test('`fp.' + methodName + '` should not mutate values', function(assert) { assert.expect(2); var objects = [{ 'a': 1 }, { 'b': 2 }], actual = func(_.noop)(objects); assert.deepEqual(objects[0], { 'a': 1 }); assert.deepEqual(actual, { 'a': 1, 'b': 2 }); }); QUnit.test('`fp.' + methodName + '` should work with more than two sources', function(assert) { assert.expect(2); var pass = false, objects = [{ 'a': 1 }, { 'b': 2 }, { 'c': 3 }], actual = func(function() { pass = true; })(objects); assert.ok(pass); assert.deepEqual(actual, { 'a': 1, 'b': 2, 'c': 3 }); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('fp.castArray'); (function() { QUnit.test('should shallow clone array values', function(assert) { assert.expect(2); var array = [1], actual = fp.castArray(array); assert.deepEqual(actual, array); assert.notStrictEqual(actual, array); }); QUnit.test('should not shallow clone non-array values', function(assert) { assert.expect(2); var object = { 'a': 1 }, actual = fp.castArray(object); assert.deepEqual(actual, [object]); assert.strictEqual(actual[0], object); }); QUnit.test('should convert by name', function(assert) { assert.expect(4); var array = [1], object = { 'a': 1 }, castArray = convert('castArray', _.castArray), actual = castArray(array); assert.deepEqual(actual, array); assert.notStrictEqual(actual, array); actual = castArray(object); assert.deepEqual(actual, [object]); assert.strictEqual(actual[0], object); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('curry methods'); _.each(['curry', 'curryRight'], function(methodName) { var func = fp[methodName]; QUnit.test('fp.' + methodName + '` should only accept a `func` param', function(assert) { assert.expect(1); assert.raises(function() { func(1, _.noop); }, TypeError); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('curryN methods'); _.each(['curryN', 'curryRightN'], function(methodName) { var func = fp[methodName]; QUnit.test('fp.' + methodName + '` should accept an `arity` param', function(assert) { assert.expect(1); var actual = func(1)(function(a, b) { return [a, b]; })('a'); assert.deepEqual(actual, ['a', undefined]); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('fp.defaultTo'); (function() { QUnit.test('should have an argument order of `defaultValue` then `value`', function(assert) { assert.expect(2); assert.strictEqual(fp.defaultTo(1)(0), 0); assert.strictEqual(fp.defaultTo(1)(undefined), 1); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.difference'); (function() { QUnit.test('should return the elements of the first array not included in the second array', function(assert) { assert.expect(1); var actual = fp.difference([2, 1], [2, 3]); assert.deepEqual(actual, [1]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.differenceBy'); (function() { QUnit.test('should have an argument order of `iteratee`, `array`, then `values`', function(assert) { assert.expect(1); var actual = fp.differenceBy(Math.floor, [2.1, 1.2], [2.3, 3.4]); assert.deepEqual(actual, [1.2]); }); QUnit.test('should provide the correct `iteratee` arguments', function(assert) { assert.expect(1); var args; fp.differenceBy(function() { args || (args = slice.call(arguments)); })([2.1, 1.2], [2.3, 3.4]); assert.deepEqual(args, [2.3]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.differenceWith'); (function() { QUnit.test('should have an argument order of `comparator`, `array`, then `values`', function(assert) { assert.expect(1); var actual = fp.differenceWith(fp.eq)([2, 1])([2, 3]); assert.deepEqual(actual, [1]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.divide and fp.multiply'); _.each(['divide', 'multiply'], function(methodName) { var func = fp[methodName], isDivide = methodName == 'divide'; QUnit.test('`fp.' + methodName + '` should not have `rearg` applied', function(assert) { assert.expect(1); assert.strictEqual(func('2')('4'), isDivide ? 0.5 : 8); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('fp.extend'); (function() { QUnit.test('should convert by name', function(assert) { assert.expect(2); function Foo() {} Foo.prototype = { 'b': 2 }; var object = { 'a': 1 }, extend = convert('extend', _.extend), actual = extend(object)(new Foo); assert.deepEqual(object, { 'a': 1 }); assert.deepEqual(actual, { 'a': 1, 'b': 2 }); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.fill'); (function() { QUnit.test('should have an argument order of `start`, `end`, then `value`', function(assert) { assert.expect(1); var array = [1, 2, 3]; assert.deepEqual(fp.fill(1)(2)('*')(array), [1, '*', 3]); }); QUnit.test('should not mutate values', function(assert) { assert.expect(2); var array = [1, 2, 3], actual = fp.fill(1)(2)('*')(array); assert.deepEqual(array, [1, 2, 3]); assert.deepEqual(actual, [1, '*', 3]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.findFrom methods'); _.each(['findFrom', 'findIndexFrom', 'findLastFrom', 'findLastIndexFrom'], function(methodName) { var func = fp[methodName]; QUnit.test('fp.' + methodName + '` should provide the correct `predicate` arguments', function(assert) { assert.expect(1); var args; func(function() { args || (args = slice.call(arguments)); })(1)([1, 2, 3]); assert.deepEqual(args, [2]); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('fp.findFrom'); (function() { function resolve(value) { return fp.flow(fp.property('a'), fp.eq(value)); } QUnit.test('should have an argument order of `value`, `fromIndex`, then `array`', function(assert) { assert.expect(2); var objects = [{ 'a': 1 }, { 'a': 2 }, { 'a': 1 }, { 'a': 2 }]; assert.strictEqual(fp.findFrom(resolve(1))(1)(objects), objects[2]); assert.strictEqual(fp.findFrom(resolve(2))(-2)(objects), objects[3]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.findLastFrom'); (function() { function resolve(value) { return fp.flow(fp.property('a'), fp.eq(value)); } QUnit.test('should have an argument order of `value`, `fromIndex`, then `array`', function(assert) { assert.expect(2); var objects = [{ 'a': 1 }, { 'a': 2 }, { 'a': 1 }, { 'a': 2 }]; assert.strictEqual(fp.findLastFrom(resolve(1))(1)(objects), objects[0]); assert.strictEqual(fp.findLastFrom(resolve(2))(-2)(objects), objects[1]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.findIndexFrom and fp.indexOfFrom'); _.each(['findIndexFrom', 'indexOfFrom'], function(methodName) { var func = fp[methodName], resolve = methodName == 'findIndexFrom' ? fp.eq : _.identity; QUnit.test('fp.' + methodName + '` should have an argument order of `value`, `fromIndex`, then `array`', function(assert) { assert.expect(2); var array = [1, 2, 3, 1, 2, 3]; assert.strictEqual(func(resolve(1))(2)(array), 3); assert.strictEqual(func(resolve(2))(-3)(array), 4); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('fp.findLastIndexFrom and fp.lastIndexOfFrom'); _.each(['findLastIndexFrom', 'lastIndexOfFrom'], function(methodName) { var func = fp[methodName], resolve = methodName == 'findLastIndexFrom' ? fp.eq : _.identity; QUnit.test('fp.' + methodName + '` should have an argument order of `value`, `fromIndex`, then `array`', function(assert) { assert.expect(2); var array = [1, 2, 3, 1, 2, 3]; assert.strictEqual(func(resolve(2))(3)(array), 1); assert.strictEqual(func(resolve(3))(-3)(array), 2); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('fp.flatMapDepth'); (function() { QUnit.test('should have an argument order of `iteratee`, `depth`, then `collection`', function(assert) { assert.expect(2); function duplicate(n) { return [[[n, n]]]; } var array = [1, 2], object = { 'a': 1, 'b': 2 }, expected = [[1, 1], [2, 2]]; assert.deepEqual(fp.flatMapDepth(duplicate)(2)(array), expected); assert.deepEqual(fp.flatMapDepth(duplicate)(2)(object), expected); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('flow methods'); _.each(['flow', 'flowRight'], function(methodName) { var func = fp[methodName], isFlow = methodName == 'flow'; QUnit.test('`fp.' + methodName + '` should support shortcut fusion', function(assert) { assert.expect(6); var filterCount, mapCount, array = fp.range(0, LARGE_ARRAY_SIZE); var iteratee = function(value) { mapCount++; return square(value); }; var predicate = function(value) { filterCount++; return isEven(value); }; var filter = fp.filter(predicate), map = fp.map(iteratee), take = fp.take(2); _.times(2, function(index) { var combined = isFlow ? func(map, filter, fp.compact, take) : func(take, fp.compact, filter, map); filterCount = mapCount = 0; if (WeakMap && WeakMap.name) { assert.deepEqual(combined(array), [4, 16]); assert.strictEqual(filterCount, 5, 'filterCount'); assert.strictEqual(mapCount, 5, 'mapCount'); } else { skipAssert(assert, 3); } }); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('forEach methods'); _.each(['forEach', 'forEachRight', 'forIn', 'forInRight', 'forOwn', 'forOwnRight'], function(methodName) { var func = fp[methodName]; QUnit.test('`fp.' + methodName + '` should provide `value` to `iteratee`', function(assert) { assert.expect(2); var args; func(function() { args || (args = slice.call(arguments)); })(['a']); assert.deepEqual(args, ['a']); args = undefined; func(function() { args || (args = slice.call(arguments)); })({ 'a': 1 }); assert.deepEqual(args, [1]); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('fp.getOr'); (function() { QUnit.test('should accept a `defaultValue` param', function(assert) { assert.expect(1); var actual = fp.getOr('default')('path')({}); assert.strictEqual(actual, 'default'); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.gt and fp.gte'); _.each(['gt', 'gte'], function(methodName) { var func = fp[methodName]; QUnit.test('`fp.' + methodName + '` should have `rearg` applied', function(assert) { assert.expect(1); assert.strictEqual(func(2)(1), true); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('fp.inRange'); (function() { QUnit.test('should have an argument order of `start`, `end`, then `value`', function(assert) { assert.expect(2); assert.strictEqual(fp.inRange(2)(4)(3), true); assert.strictEqual(fp.inRange(-2)(-6)(-3), true); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.intersectionBy'); (function() { QUnit.test('should have an argument order of `iteratee`, `array`, then `values`', function(assert) { assert.expect(1); var actual = fp.intersectionBy(Math.floor, [2.1, 1.2], [2.3, 3.4]); assert.deepEqual(actual, [2.1]); }); QUnit.test('should provide the correct `iteratee` arguments', function(assert) { assert.expect(1); var args; fp.intersectionBy(function() { args || (args = slice.call(arguments)); })([2.1, 1.2], [2.3, 3.4]); assert.deepEqual(args, [2.3]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.intersectionWith'); (function() { QUnit.test('should have an argument order of `comparator`, `array`, then `values`', function(assert) { assert.expect(1); var actual = fp.intersectionWith(fp.eq)([2, 1])([2, 3]); assert.deepEqual(actual, [2]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.invoke'); (function() { QUnit.test('should not accept an `args` param', function(assert) { assert.expect(1); var actual = fp.invoke('toUpperCase')('a'); assert.strictEqual(actual, 'A'); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.invokeMap'); (function() { QUnit.test('should not accept an `args` param', function(assert) { assert.expect(1); var actual = fp.invokeMap('toUpperCase')(['a', 'b']); assert.deepEqual(actual, ['A', 'B']); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.invokeArgs'); (function() { QUnit.test('should accept an `args` param', function(assert) { assert.expect(1); var actual = fp.invokeArgs('concat')(['b', 'c'])('a'); assert.strictEqual(actual, 'abc'); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.invokeArgsMap'); (function() { QUnit.test('should accept an `args` param', function(assert) { assert.expect(1); var actual = fp.invokeArgsMap('concat')(['b', 'c'])(['a', 'A']); assert.deepEqual(actual, ['abc', 'Abc']); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.isEqualWith'); (function() { QUnit.test('should provide the correct `customizer` arguments', function(assert) { assert.expect(1); var args, iteration = 0, objects = [{ 'a': 1 }, { 'a': 2 }], stack = { '__data__': { '__data__': [objects, objects.slice().reverse()], 'size': 2 }, 'size': 2 }, expected = [1, 2, 'a', objects[0], objects[1], stack]; fp.isEqualWith(function() { if (++iteration == 2) { args = _.map(arguments, _.cloneDeep); } })(objects[0])(objects[1]); args[5] = _.omitBy(args[5], _.isFunction); args[5].__data__ = _.omitBy(args[5].__data__, _.isFunction); assert.deepEqual(args, expected); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.isMatchWith'); (function() { QUnit.test('should provide the correct `customizer` arguments', function(assert) { assert.expect(1); var args, objects = [{ 'a': 1 }, { 'a': 2 }], stack = { '__data__': { '__data__': [], 'size': 0 }, 'size': 0 }, expected = [2, 1, 'a', objects[1], objects[0], stack]; fp.isMatchWith(function() { args || (args = _.map(arguments, _.cloneDeep)); })(objects[0])(objects[1]); args[5] = _.omitBy(args[5], _.isFunction); args[5].__data__ = _.omitBy(args[5].__data__, _.isFunction); assert.deepEqual(args, expected); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.iteratee'); (function() { QUnit.test('should return a iteratee with capped params', function(assert) { assert.expect(1); var func = fp.iteratee(function(a, b, c) { return [a, b, c]; }, 3); assert.deepEqual(func(1, 2, 3), [1, undefined, undefined]); }); QUnit.test('should convert by name', function(assert) { assert.expect(1); var iteratee = convert('iteratee', _.iteratee), func = iteratee(function(a, b, c) { return [a, b, c]; }, 3); assert.deepEqual(func(1, 2, 3), [1, undefined, undefined]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.lt and fp.lte'); _.each(['lt', 'lte'], function(methodName) { var func = fp[methodName]; QUnit.test('`fp.' + methodName + '` should have `rearg` applied', function(assert) { assert.expect(1); assert.strictEqual(func(1)(2), true); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('fp.mapKeys'); (function() { QUnit.test('should only provide `key` to `iteratee`', function(assert) { assert.expect(1); var args; fp.mapKeys(function() { args || (args = slice.call(arguments)); }, { 'a': 1 }); assert.deepEqual(args, ['a']); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.maxBy and fp.minBy'); _.each(['maxBy', 'minBy'], function(methodName) { var array = [1, 2, 3], func = fp[methodName], isMax = methodName == 'maxBy'; QUnit.test('`fp.' + methodName + '` should work with an `iteratee` argument', function(assert) { assert.expect(1); var actual = func(function(num) { return -num; })(array); assert.strictEqual(actual, isMax ? 1 : 3); }); QUnit.test('`fp.' + methodName + '` should provide the correct `iteratee` arguments', function(assert) { assert.expect(1); var args; func(function() { args || (args = slice.call(arguments)); })(array); assert.deepEqual(args, [1]); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('fp.mergeWith'); (function() { QUnit.test('should provide the correct `customizer` arguments', function(assert) { assert.expect(1); var args, stack = { '__data__': { '__data__': [], 'size': 0 }, 'size': 0 }, expected = [[1, 2], [3], 'a', { 'a': [1, 2] }, { 'a': [3] }, stack]; fp.mergeWith(function() { args || (args = _.map(arguments, _.cloneDeep)); })({ 'a': [1, 2] })({ 'a': [3] }); args[5] = _.omitBy(args[5], _.isFunction); args[5].__data__ = _.omitBy(args[5].__data__, _.isFunction); assert.deepEqual(args, expected); }); QUnit.test('should not mutate values', function(assert) { assert.expect(2); var objects = [{ 'a': [1, 2] }, { 'a': [3] }], actual = fp.mergeWith(_.noop, objects[0], objects[1]); assert.deepEqual(objects[0], { 'a': [1, 2] }); assert.deepEqual(actual, { 'a': [3, 2] }); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.mergeAllWith'); (function() { QUnit.test('should provide the correct `customizer` arguments', function(assert) { assert.expect(1); var args, objects = [{ 'a': [1, 2] }, { 'a': [3] }], stack = { '__data__': { '__data__': [], 'size': 0 }, 'size': 0 }, expected = [[1, 2], [3], 'a', { 'a': [1, 2] }, { 'a': [3] }, stack]; fp.mergeAllWith(function() { args || (args = _.map(arguments, _.cloneDeep)); })(objects); args[5] = _.omitBy(args[5], _.isFunction); args[5].__data__ = _.omitBy(args[5].__data__, _.isFunction); assert.deepEqual(args, expected); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.mixin'); (function() { var source = { 'a': _.noop }; QUnit.test('should mixin static methods but not prototype methods', function(assert) { assert.expect(2); fp.mixin(source); assert.strictEqual(typeof fp.a, 'function'); assert.notOk('a' in fp.prototype); delete fp.a; delete fp.prototype.a; }); QUnit.test('should not assign inherited `source` methods', function(assert) { assert.expect(2); function Foo() {} Foo.prototype.a = _.noop; fp.mixin(new Foo); assert.notOk('a' in fp); assert.notOk('a' in fp.prototype); delete fp.a; delete fp.prototype.a; }); QUnit.test('should not remove existing prototype methods', function(assert) { assert.expect(2); var each1 = fp.each, each2 = fp.prototype.each; fp.mixin({ 'each': source.a }); assert.strictEqual(fp.each, source.a); assert.strictEqual(fp.prototype.each, each2); fp.each = each1; fp.prototype.each = each2; }); QUnit.test('should not export to the global when `source` is not an object', function(assert) { assert.expect(2); var props = _.without(_.keys(_), '_'); _.times(2, function(index) { fp.mixin.apply(fp, index ? [1] : []); assert.ok(_.every(props, function(key) { return root[key] !== fp[key]; })); _.each(props, function(key) { if (root[key] === fp[key]) { delete root[key]; } }); }); }); QUnit.test('should convert by name', function(assert) { assert.expect(3); var object = { 'mixin': convert('mixin', _.mixin) }; function Foo() {} Foo.mixin = object.mixin; Foo.mixin(source); assert.ok('a' in Foo); assert.notOk('a' in Foo.prototype); object.mixin(source); assert.ok('a' in object); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.nthArg'); (function() { QUnit.test('should return a curried function', function(assert) { assert.expect(2); var func = fp.nthArg(1); assert.strictEqual(func(1)(2), 2); func = fp.nthArg(-1); assert.strictEqual(func(1), 1); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.over'); (function() { QUnit.test('should not cap iteratee args', function(assert) { assert.expect(2); _.each([fp.over, convert('over', _.over)], function(func) { var over = func([Math.max, Math.min]); assert.deepEqual(over(1, 2, 3, 4), [4, 1]); }); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.omitBy and fp.pickBy'); _.each(['omitBy', 'pickBy'], function(methodName) { var func = fp[methodName]; QUnit.test('`fp.' + methodName + '` should provide `value` and `key` to `iteratee`', function(assert) { assert.expect(1); var args; func(function() { args || (args = slice.call(arguments)); })({ 'a': 1 }); assert.deepEqual(args, [1, 'a']); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('padChars methods'); _.each(['padChars', 'padCharsStart', 'padCharsEnd'], function(methodName) { var func = fp[methodName], isPad = methodName == 'padChars', isStart = methodName == 'padCharsStart'; QUnit.test('fp.' + methodName + '` should truncate pad characters to fit the pad length', function(assert) { assert.expect(1); if (isPad) { assert.strictEqual(func('_-')(8)('abc'), '_-abc_-_'); } else { assert.strictEqual(func('_-')(6)('abc'), isStart ? '_-_abc' : 'abc_-_'); } }); }); /*--------------------------------------------------------------------------*/ QUnit.module('partial methods'); _.each(['partial', 'partialRight'], function(methodName) { var func = fp[methodName], isPartial = methodName == 'partial'; QUnit.test('fp.' + methodName + '` should accept an `args` param', function(assert) { assert.expect(1); var expected = isPartial ? [1, 2, 3] : [0, 1, 2]; var actual = func(function(a, b, c) { return [a, b, c]; })([1, 2])(isPartial ? 3 : 0); assert.deepEqual(actual, expected); }); QUnit.test('fp.' + methodName + '` should convert by name', function(assert) { assert.expect(2); var expected = isPartial ? [1, 2, 3] : [0, 1, 2], par = convert(methodName, _[methodName]), ph = par.placeholder; var actual = par(function(a, b, c) { return [a, b, c]; })([1, 2])(isPartial ? 3 : 0); assert.deepEqual(actual, expected); actual = par(function(a, b, c) { return [a, b, c]; })([ph, 2])(isPartial ? 1 : 0, isPartial ? 3 : 1); assert.deepEqual(actual, expected); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('fp.propertyOf'); (function() { QUnit.test('should be curried', function(assert) { assert.expect(2); var object = { 'a': 1 }; assert.strictEqual(fp.propertyOf(object, 'a'), 1); assert.strictEqual(fp.propertyOf(object)('a'), 1); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.pull'); (function() { QUnit.test('should not mutate values', function(assert) { assert.expect(2); var array = [1, 2, 3], actual = fp.pull(2)(array); assert.deepEqual(array, [1, 2, 3]); assert.deepEqual(actual, [1, 3]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.pullAll'); (function() { QUnit.test('should not mutate values', function(assert) { assert.expect(2); var array = [1, 2, 3], actual = fp.pullAll([1, 3])(array); assert.deepEqual(array, [1, 2, 3]); assert.deepEqual(actual, [2]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.pullAt'); (function() { QUnit.test('should not mutate values', function(assert) { assert.expect(2); var array = [1, 2, 3], actual = fp.pullAt([0, 2])(array); assert.deepEqual(array, [1, 2, 3]); assert.deepEqual(actual, [2]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.random'); (function() { var array = Array(1000); QUnit.test('should support a `min` and `max` argument', function(assert) { assert.expect(1); var min = 5, max = 10; assert.ok(_.some(array, function() { var result = fp.random(min)(max); return result >= min && result <= max; })); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('range methods'); _.each(['range', 'rangeRight'], function(methodName) { var func = fp[methodName], isRange = methodName == 'range'; QUnit.test('fp.' + methodName + '` should have an argument order of `start` then `end`', function(assert) { assert.expect(1); assert.deepEqual(func(1)(4), isRange ? [1, 2, 3] : [3, 2, 1]); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('rangeStep methods'); _.each(['rangeStep', 'rangeStepRight'], function(methodName) { var func = fp[methodName], isRange = methodName == 'rangeStep'; QUnit.test('fp.' + methodName + '` should have an argument order of `step`, `start`, then `end`', function(assert) { assert.expect(1); assert.deepEqual(func(2)(1)(4), isRange ? [1, 3] : [3, 1]); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('fp.rearg'); (function() { function fn(a, b, c) { return [a, b, c]; } QUnit.test('should be curried', function(assert) { assert.expect(1); var rearged = fp.rearg([1, 2, 0])(fn); assert.deepEqual(rearged('c', 'a', 'b'), ['a', 'b', 'c']); }); QUnit.test('should return a curried function', function(assert) { assert.expect(1); var rearged = fp.rearg([1, 2, 0], fn); assert.deepEqual(rearged('c')('a')('b'), ['a', 'b', 'c']); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('reduce methods'); _.each(['reduce', 'reduceRight'], function(methodName) { var func = fp[methodName], isReduce = methodName == 'reduce'; QUnit.test('`fp.' + methodName + '` should provide the correct `iteratee` arguments when iterating an array', function(assert) { assert.expect(1); var args; func(function() { args || (args = slice.call(arguments)); })(0)([1, 2, 3]); assert.deepEqual(args, isReduce ? [0, 1] : [3, 0]); }); QUnit.test('`fp.' + methodName + '` should provide the correct `iteratee` arguments when iterating an object', function(assert) { assert.expect(1); var args, object = { 'a': 1, 'b': 2 }, isFIFO = _.keys(object)[0] == 'a'; var expected = isFIFO ? (isReduce ? [0, 1] : [2, 0]) : (isReduce ? [0, 2] : [1, 0]); func(function() { args || (args = slice.call(arguments)); })(0)(object); assert.deepEqual(args, expected); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('fp.remove'); (function() { QUnit.test('should not mutate values', function(assert) { assert.expect(2); var array = [1, 2, 3], actual = fp.remove(fp.eq(2))(array); assert.deepEqual(array, [1, 2, 3]); assert.deepEqual(actual, [1, 3]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.restFrom'); (function() { QUnit.test('should accept a `start` param', function(assert) { assert.expect(1); var actual = fp.restFrom(2)(function() { return slice.call(arguments); })('a', 'b', 'c', 'd'); assert.deepEqual(actual, ['a', 'b', ['c', 'd']]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.reverse'); (function() { QUnit.test('should not mutate values', function(assert) { assert.expect(2); var array = [1, 2, 3], actual = fp.reverse(array); assert.deepEqual(array, [1, 2, 3]); assert.deepEqual(actual, [3, 2, 1]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.runInContext'); (function() { QUnit.test('should return a converted lodash instance', function(assert) { assert.expect(1); assert.strictEqual(typeof fp.runInContext({}).curryN, 'function'); }); QUnit.test('should convert by name', function(assert) { assert.expect(1); var runInContext = convert('runInContext', _.runInContext); assert.strictEqual(typeof runInContext({}).curryN, 'function'); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.set'); (function() { QUnit.test('should not mutate values', function(assert) { assert.expect(2); var object = { 'a': { 'b': 2, 'c': 3 } }, actual = fp.set('a.b')(3)(object); assert.deepEqual(object, { 'a': { 'b': 2, 'c': 3 } }); assert.deepEqual(actual, { 'a': { 'b': 3, 'c': 3 } }); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.setWith'); (function() { QUnit.test('should provide the correct `customizer` arguments', function(assert) { assert.expect(1); var args; fp.setWith(function() { args || (args = _.map(arguments, _.cloneDeep)); })('b.c')(2)({ 'a': 1 }); assert.deepEqual(args, [undefined, 'b', { 'a': 1 }]); }); QUnit.test('should not mutate values', function(assert) { assert.expect(2); var object = { 'a': { 'b': 2, 'c': 3 } }, actual = fp.setWith(Object)('d.e')(4)(object); assert.deepEqual(object, { 'a': { 'b': 2, 'c': 3 } }); assert.deepEqual(actual, { 'a': { 'b': 2, 'c': 3 }, 'd': { 'e': 4 } }); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.spreadFrom'); (function() { QUnit.test('should accept a `start` param', function(assert) { assert.expect(1); var actual = fp.spreadFrom(2)(function() { return slice.call(arguments); })('a', 'b', ['c', 'd']); assert.deepEqual(actual, ['a', 'b', 'c', 'd']); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('trimChars methods'); _.each(['trimChars', 'trimCharsStart', 'trimCharsEnd'], function(methodName, index) { var func = fp[methodName], parts = []; if (index != 2) { parts.push('leading'); } if (index != 1) { parts.push('trailing'); } parts = parts.join(' and '); QUnit.test('`fp.' + methodName + '` should remove ' + parts + ' `chars`', function(assert) { assert.expect(1); var string = '-_-a-b-c-_-', expected = (index == 2 ? '-_-' : '') + 'a-b-c' + (index == 1 ? '-_-' : ''); assert.strictEqual(func('_-')(string), expected); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('fp.unionBy'); (function() { QUnit.test('should have an argument order of `iteratee`, `array`, then `other`', function(assert) { assert.expect(1); var actual = fp.unionBy(Math.floor, [2.1], [1.2, 2.3]); assert.deepEqual(actual, [2.1, 1.2]); }); QUnit.test('should provide the correct `iteratee` arguments', function(assert) { assert.expect(1); var args; fp.unionBy(function() { args || (args = slice.call(arguments)); })([2.1], [1.2, 2.3]); assert.deepEqual(args, [2.1]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.unionWith'); (function() { QUnit.test('should have an argument order of `comparator`, `array`, then `values`', function(assert) { assert.expect(1); var actual = fp.unionWith(fp.eq)([2, 1])([2, 3]); assert.deepEqual(actual, [2, 1, 3]); }); QUnit.test('should provide the correct `comparator` arguments', function(assert) { assert.expect(1); var args; fp.unionWith(function() { args || (args = slice.call(arguments)); })([2, 1])([2, 3]); assert.deepEqual(args, [1, 2]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.uniqBy'); (function() { var objects = [{ 'a': 2 }, { 'a': 3 }, { 'a': 1 }, { 'a': 2 }, { 'a': 3 }, { 'a': 1 }]; QUnit.test('should work with an `iteratee` argument', function(assert) { assert.expect(1); var expected = objects.slice(0, 3), actual = fp.uniqBy(_.property('a'))(objects); assert.deepEqual(actual, expected); }); QUnit.test('should provide the correct `iteratee` arguments', function(assert) { assert.expect(1); var args; fp.uniqBy(function() { args || (args = slice.call(arguments)); })(objects); assert.deepEqual(args, [objects[0]]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.uniqWith'); (function() { QUnit.test('should have an argument order of `comparator`, `array`, then `values`', function(assert) { assert.expect(1); var actual = fp.uniqWith(fp.eq)([2, 1, 2]); assert.deepEqual(actual, [2, 1]); }); QUnit.test('should provide the correct `comparator` arguments', function(assert) { assert.expect(1); var args; fp.uniqWith(function() { args || (args = slice.call(arguments)); })([2, 1, 2]); assert.deepEqual(args, [1, 2]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.update'); (function() { QUnit.test('should not convert end of `path` to an object', function(assert) { assert.expect(1); var actual = fp.update('a.b')(_.identity)({ 'a': { 'b': 1 } }); assert.strictEqual(typeof actual.a.b, 'number'); }); QUnit.test('should not convert uncloneables to objects', function(assert) { assert.expect(2); var object = { 'a': { 'b': _.constant(true) } }, actual = fp.update('a.b')(_.identity)(object); assert.strictEqual(typeof object.a.b, 'function'); assert.strictEqual(object.a.b, actual.a.b); }); QUnit.test('should not mutate values', function(assert) { assert.expect(2); var object = { 'a': { 'b': 2, 'c': 3 } }, actual = fp.update('a.b')(square)(object); assert.deepEqual(object, { 'a': { 'b': 2, 'c': 3 } }); assert.deepEqual(actual, { 'a': { 'b': 4, 'c': 3 } }); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.updateWith'); (function() { QUnit.test('should provide the correct `customizer` arguments', function(assert) { var args; fp.updateWith(function() { args || (args = _.map(arguments, _.cloneDeep)); })('b.c')(_.constant(2))({ 'a': 1 }); assert.deepEqual(args, [undefined, 'b', { 'a': 1 }]); }); QUnit.test('should not mutate values', function(assert) { assert.expect(2); var object = { 'a': { 'b': 2, 'c': 3 } }, actual = fp.updateWith(Object)('d.e')(_.constant(4))(object); assert.deepEqual(object, { 'a': { 'b': 2, 'c': 3 } }); assert.deepEqual(actual, { 'a': { 'b': 2, 'c': 3 }, 'd': { 'e': 4 } }); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.unset'); (function() { QUnit.test('should not mutate values', function(assert) { assert.expect(2); var object = { 'a': { 'b': 2, 'c': 3 } }, actual = fp.unset('a.b')(object); assert.deepEqual(object, { 'a': { 'b': 2, 'c': 3 } }); assert.deepEqual(actual, { 'a': { 'c': 3 } }); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.xorBy'); (function() { QUnit.test('should have an argument order of `iteratee`, `array`, then `other`', function(assert) { assert.expect(1); var actual = fp.xorBy(Math.floor, [2.1, 1.2], [2.3, 3.4]); assert.deepEqual(actual, [1.2, 3.4]); }); QUnit.test('should provide the correct `iteratee` arguments', function(assert) { assert.expect(1); var args; fp.xorBy(function() { args || (args = slice.call(arguments)); })([2.1, 1.2], [2.3, 3.4]); assert.deepEqual(args, [2.3]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.xorWith'); (function() { QUnit.test('should have an argument order of `comparator`, `array`, then `values`', function(assert) { assert.expect(1); var actual = fp.xorWith(fp.eq)([2, 1])([2, 3]); assert.deepEqual(actual, [1, 3]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('with methods'); _.each(['differenceWith', 'intersectionWith', 'xorWith'], function(methodName) { var func = fp[methodName]; QUnit.test('`fp.' + methodName + '` should provide the correct `comparator` arguments', function(assert) { assert.expect(1); var args; func(function() { args || (args = slice.call(arguments)); })([2, 1])([2, 3]); assert.deepEqual(args, [2, 2]); }); }); /*--------------------------------------------------------------------------*/ QUnit.module('fp.zip'); (function() { QUnit.test('should zip together two arrays', function(assert) { assert.expect(1); assert.deepEqual(fp.zip([1, 2])([3, 4]), [[1, 3], [2, 4]]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.zipAll'); (function() { QUnit.test('should zip together an array of arrays', function(assert) { assert.expect(1); assert.deepEqual(fp.zipAll([[1, 2], [3, 4], [5, 6]]), [[1, 3, 5], [2, 4, 6]]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.zipObject'); (function() { QUnit.test('should zip together key/value arrays into an object', function(assert) { assert.expect(1); assert.deepEqual(fp.zipObject(['a', 'b'])([1, 2]), { 'a': 1, 'b': 2 }); }); }()); /*--------------------------------------------------------------------------*/ QUnit.module('fp.zipWith'); (function() { QUnit.test('should zip arrays combining grouped elements with `iteratee`', function(assert) { assert.expect(1); var array1 = [1, 2, 3], array2 = [4, 5, 6], actual = fp.zipWith(add)(array1)(array2); assert.deepEqual(actual, [5, 7, 9]); }); }()); /*--------------------------------------------------------------------------*/ QUnit.config.asyncRetries = 10; QUnit.config.hidepassed = true; if (!document) { QUnit.config.noglobals = true; QUnit.load(); QUnit.start(); } }.call(this));