import assert from 'assert' import math from '../../../../src/defaultInstance.js' const matrix = math.matrix const partitionSelect = math.partitionSelect describe('partitionSelect', function () { it('should sort an array with numbers', function () { assert.strictEqual(partitionSelect([5, 10, 1], 0), 1) assert.strictEqual(partitionSelect([5, 10, 1], 1), 5) assert.strictEqual(partitionSelect([5, 10, 1], 2), 10) }) it('should sort a Matrix', function () { assert.strictEqual(partitionSelect(matrix([5, 10, 1]), 0), 1) assert.strictEqual(partitionSelect(matrix([5, 10, 1]), 1), 5) assert.strictEqual(partitionSelect(matrix([5, 10, 1]), 2), 10) }) it('should sort an array in ascending order', function () { assert.strictEqual(partitionSelect([5, 10, 1], 0, 'asc'), 1) assert.strictEqual(partitionSelect([5, 10, 1], 1, 'asc'), 5) assert.strictEqual(partitionSelect([5, 10, 1], 2, 'asc'), 10) }) it('should sort an array in descending order', function () { assert.strictEqual(partitionSelect([5, 10, 1], 0, 'desc'), 10) assert.strictEqual(partitionSelect([5, 10, 1], 1, 'desc'), 5) assert.strictEqual(partitionSelect([5, 10, 1], 2, 'desc'), 1) }) it('should sort an array with a custom compare function', function () { function sortByLength (a, b) { return a.length - b.length } assert.strictEqual(partitionSelect(['Langdon', 'Tom', 'Sara'], 0, sortByLength), 'Tom') assert.strictEqual(partitionSelect(['Langdon', 'Tom', 'Sara'], 1, sortByLength), 'Sara') assert.strictEqual(partitionSelect(['Langdon', 'Tom', 'Sara'], 2, sortByLength), 'Langdon') }) it('should mutate the input array, leaving it partitioned at k', function () { const arr = [3, 2, 4, 6, -2, 5] partitionSelect(arr, 3) for (let i = 0; i < 3; ++i) { assert.ok(arr[i] <= arr[3]) } assert.ok(arr[3] === 4) for (let i = 4; i < arr.length; ++i) { assert.ok(arr[3] <= arr[i]) } }) it('should mutate the input matrix, leaving it partitioned at k', function () { const m = matrix([3, 2, 4, 6, -2, 5]) partitionSelect(m, 3) m.forEach(function (value, index, matrix) { if (index[0] < 3) { assert.ok(value <= 4) } else if (index[0] === 3) { assert.ok(value === 4) } else { assert.ok(value >= 4) } }) }) it('should return NaN if any of the inputs contains NaN', function () { assert(isNaN(partitionSelect([NaN], 0))) assert(isNaN(partitionSelect([1, NaN], 0))) assert(isNaN(partitionSelect([NaN, 1], 0))) assert(isNaN(partitionSelect([1, 3, NaN], 1))) assert(isNaN(partitionSelect([NaN, NaN, NaN], 1))) }) it('should throw an error if called with a multi dimensional matrix', function () { assert.throws(function () { partitionSelect(matrix([[1, 2], [3, 4]]), 2) }, /Only one dimensional matrices supported/) }) it('should throw an error if called with a non-negative k, within the bounds of the array', function () { assert.throws(function () { partitionSelect([1], -2) }, /k must be a non-negative integer/) assert.throws(function () { partitionSelect([3, 2, 1], 1.2) }, /k must be a non-negative integer/) assert.throws(function () { partitionSelect([3, 2, 1], 3) }, /k out of bounds/) assert.throws(function () { partitionSelect([], 0) }, /k out of bounds/) }) it('should throw an error if called with unsupported type', function () { assert.throws(function () { partitionSelect(2, 2) }, /TypeError: Unexpected type of argument/) assert.throws(function () { partitionSelect('string', 2) }, /TypeError: Unexpected type of argument/) assert.throws(function () { partitionSelect([1], new Date()) }, /TypeError: Unexpected type of argument/) assert.throws(function () { partitionSelect([1], 1, 'function') }, /Error: Compare string must be "asc" or "desc"/) assert.throws(function () { partitionSelect([1], 1, {}) }, /TypeError: Unexpected type of argument/) }) it('should throw an error if called with invalid number of arguments', function () { assert.throws(function () { partitionSelect() }, /TypeError: Too few arguments/) assert.throws(function () { partitionSelect([]) }, /TypeError: Too few arguments/) assert.throws(function () { partitionSelect([], 2, 'foo', 3) }, /TypeError: Too many arguments/) }) /* it('should LaTeX sort', function () { const expression = math.parse('sort([3,2,1])') assert.strictEqual(expression.toTex(), '\\mathrm{sort}\\left(\\begin{bmatrix}3\\\\2\\\\1\\\\\\end{bmatrix}\\right)') }) */ })