import assert from 'assert' import math from '../../../../src/bundleAny' import _ from 'underscore' const math2 = math.create({ randomSeed: 'test2' }) const pickRandom = math2.pickRandom describe('pickRandom', function () { it('should have a function pickRandom', function () { assert.strictEqual(typeof math.pickRandom, 'function') }) it('should throw an error when providing a multi dimensional matrix', function () { assert.throws(function () { pickRandom(math.matrix([[1, 2], [3, 4]])) }, /Only one dimensional vectors supported/) }) it('should throw an error if the length of the weights does not match the length of the possibles', function () { const possibles = [11, 22, 33, 44, 55] const weights = [1, 5, 2, 4] const number = 2 assert.throws(function () { pickRandom(possibles, weights) }, /Weights must have the same length as possibles/) assert.throws(function () { pickRandom(possibles, number, weights) }, /Weights must have the same length as possibles/) assert.throws(function () { pickRandom(possibles, weights, number) }, /Weights must have the same length as possibles/) }) it('should throw an error if the weights array contains a non number or negative value', function () { const possibles = [11, 22, 33, 44, 55] let weights = [1, 5, 2, -1, 6] assert.throws(function () { pickRandom(possibles, weights) }, /Weights must be an array of positive numbers/) weights = [1, 5, 2, 'stinky', 6] assert.throws(function () { pickRandom(possibles, weights) }, /Weights must be an array of positive numbers/) }) it('should return a single value if no number argument was passed', function () { const possibles = [11, 22, 33, 44, 55] const weights = [1, 5, 2, 4, 6] assert.notStrictEqual(possibles.indexOf(pickRandom(possibles)), -1) assert.notStrictEqual(possibles.indexOf(pickRandom(possibles, weights)), -1) }) it('should return a single value if no number argument was passed (2)', function () { const possibles = [5] assert.strictEqual(pickRandom(possibles), 5) }) it('should return the given array if the given number is equal its length', function () { const possibles = [11, 22, 33, 44, 55] const weights = [1, 5, 2, 4, 6] const number = 5 assert.strictEqual(pickRandom(possibles, number), possibles) assert.strictEqual(pickRandom(possibles, number, weights), possibles) assert.strictEqual(pickRandom(possibles, weights, number), possibles) }) it('should return the given array if the given number is greater than its length', function () { const possibles = [11, 22, 33, 44, 55] const weights = [1, 5, 2, 4, 6] const number = 6 assert.strictEqual(pickRandom(possibles, number), possibles) assert.strictEqual(pickRandom(possibles, number, weights), possibles) assert.strictEqual(pickRandom(possibles, weights, number), possibles) }) it('should return an empty array if the given number is 0', function () { const possibles = [11, 22, 33, 44, 55] const weights = [1, 5, 2, 4, 6] const number = 0 assert.strictEqual(pickRandom(possibles, number).length, 0) assert.strictEqual(pickRandom(possibles, number, weights).length, 0) assert.strictEqual(pickRandom(possibles, weights, number).length, 0) }) it('should return an array of length 1 if the number passed is 1', function () { const possibles = [11, 22, 33, 44, 55] const weights = [1, 5, 2, 4, 6] const number = 1 assert(Array.isArray(pickRandom(possibles, number))) assert(Array.isArray(pickRandom(possibles, number, weights))) assert(Array.isArray(pickRandom(possibles, weights, number))) assert.strictEqual(pickRandom(possibles, number).length, 1) assert.strictEqual(pickRandom(possibles, number, weights).length, 1) assert.strictEqual(pickRandom(possibles, weights, number).length, 1) }) it('should pick the given number of values from the given array', function () { const possibles = [11, 22, 33, 44, 55] const weights = [1, 5, 2, 4, 6] const number = 3 assert.strictEqual(pickRandom(possibles, number).length, number) assert.strictEqual(pickRandom(possibles, number, weights).length, number) assert.strictEqual(pickRandom(possibles, weights, number).length, number) }) it('should pick a value from the given array following an uniform distribution if only possibles are passed', function () { const possibles = [11, 22, 33, 44, 55] const picked = [] let count _.times(1000, function () { picked.push(pickRandom(possibles)) }) count = _.filter(picked, function (val) { return val === 11 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 22 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 33 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 44 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 55 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) }) it('should pick a value from the given matrix following an uniform distribution', function () { const possibles = math.matrix([11, 22, 33, 44, 55]) const picked = [] let count _.times(1000, function () { picked.push(pickRandom(possibles)) }) count = _.filter(picked, function (val) { return val === 11 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 22 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 33 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 44 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 55 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) }) it('should pick a given number of values from the given array following an uniform distribution if no weights were passed', function () { const possibles = [11, 22, 33, 44, 55] const number = 2 const picked = [] let count _.times(1000, function () { picked.push.apply(picked, pickRandom(possibles, number)) }) assert.strictEqual(picked.length, 2000) count = _.filter(picked, function (val) { return val === 11 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 22 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 33 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 44 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 55 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) }) it('should pick numbers from the given matrix following an uniform distribution', function () { const possibles = math.matrix([11, 22, 33, 44, 55]) const number = 3 const picked = [] let count _.times(1000, function () { picked.push.apply(picked, pickRandom(possibles, number)) }) assert.strictEqual(picked.length, 3000) count = _.filter(picked, function (val) { return val === 11 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 22 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 33 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 44 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 55 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) }) it('should pick a value from the given array following a weighted distribution', function () { const possibles = [11, 22, 33, 44, 55] const weights = [1, 4, 0, 2, 3] const picked = [] let count _.times(1000, function () { picked.push(pickRandom(possibles, weights)) }) count = _.filter(picked, function (val) { return val === 11 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.1) count = _.filter(picked, function (val) { return val === 22 }).length assert.strictEqual(math.round((count) / picked.length, 1), 0.4) count = _.filter(picked, function (val) { return val === 33 }).length assert.strictEqual(math.round(count / picked.length, 1), 0) count = _.filter(picked, function (val) { return val === 44 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 55 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.3) }) it('should pick a value from the given matrix following a weighted distribution', function () { const possibles = math.matrix([11, 22, 33, 44, 55]) const weights = [1, 4, 0, 2, 3] const picked = [] let count _.times(1000, function () { picked.push(pickRandom(possibles, weights)) }) count = _.filter(picked, function (val) { return val === 11 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.1) count = _.filter(picked, function (val) { return val === 22 }).length assert.strictEqual(math.round((count) / picked.length, 1), 0.4) count = _.filter(picked, function (val) { return val === 33 }).length assert.strictEqual(math.round(count / picked.length, 1), 0) count = _.filter(picked, function (val) { return val === 44 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 55 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.3) }) it('should return an array of values from the given array following a weighted distribution', function () { const possibles = [11, 22, 33, 44, 55] const weights = [1, 4, 0, 2, 3] const number = 2 const picked = [] let count _.times(1000, function () { picked.push.apply(picked, pickRandom(possibles, number, weights)) }) count = _.filter(picked, function (val) { return val === 11 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.1) count = _.filter(picked, function (val) { return val === 22 }).length assert.strictEqual(math.round((count) / picked.length, 1), 0.4) count = _.filter(picked, function (val) { return val === 33 }).length assert.strictEqual(math.round(count / picked.length, 1), 0) count = _.filter(picked, function (val) { return val === 44 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 55 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.3) _.times(1000, function () { picked.push.apply(picked, pickRandom(possibles, weights, number)) }) count = _.filter(picked, function (val) { return val === 11 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.1) count = _.filter(picked, function (val) { return val === 22 }).length assert.strictEqual(math.round((count) / picked.length, 1), 0.4) count = _.filter(picked, function (val) { return val === 33 }).length assert.strictEqual(math.round(count / picked.length, 1), 0) count = _.filter(picked, function (val) { return val === 44 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 55 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.3) }) it('should return an array of values from the given matrix following a weighted distribution', function () { const possibles = math.matrix([11, 22, 33, 44, 55]) const weights = [1, 4, 0, 2, 3] const number = 2 const picked = [] let count _.times(1000, function () { picked.push.apply(picked, pickRandom(possibles, number, weights)) }) count = _.filter(picked, function (val) { return val === 11 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.1) count = _.filter(picked, function (val) { return val === 22 }).length assert.strictEqual(math.round((count) / picked.length, 1), 0.4) count = _.filter(picked, function (val) { return val === 33 }).length assert.strictEqual(math.round(count / picked.length, 1), 0) count = _.filter(picked, function (val) { return val === 44 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 55 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.3) _.times(1000, function () { picked.push.apply(picked, pickRandom(possibles, weights, number)) }) count = _.filter(picked, function (val) { return val === 11 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.1) count = _.filter(picked, function (val) { return val === 22 }).length assert.strictEqual(math.round((count) / picked.length, 1), 0.4) count = _.filter(picked, function (val) { return val === 33 }).length assert.strictEqual(math.round(count / picked.length, 1), 0) count = _.filter(picked, function (val) { return val === 44 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.2) count = _.filter(picked, function (val) { return val === 55 }).length assert.strictEqual(math.round(count / picked.length, 1), 0.3) }) it('should throw an error in case of wrong type of arguments', function () { assert.throws(function () { pickRandom(23) }, /Unexpected type of argument/) assert.throws(function () { pickRandom() }, /Too few arguments/) assert.throws(function () { pickRandom([], 23, [], 9) }, /Too many arguments/) // TODO: more type testing... }) it('should LaTeX pickRandom', function () { const expression = math.parse('pickRandom([1,2,3])') assert.strictEqual(expression.toTex(), '\\mathrm{pickRandom}\\left(\\begin{bmatrix}1\\\\2\\\\3\\\\\\end{bmatrix}\\right)') }) })