// test FunctionAssignmentNode var assert = require('assert') var approx = require('../../../tools/approx') var math = require('../../../src/index').create() var Node = math.expression.node.Node var ConstantNode = math.expression.node.ConstantNode var SymbolNode = math.expression.node.SymbolNode var AssignmentNode = math.expression.node.AssignmentNode var ConditionalNode = math.expression.node.ConditionalNode var OperatorNode = math.expression.node.OperatorNode var FunctionNode = math.expression.node.FunctionNode var FunctionAssignmentNode = math.expression.node.FunctionAssignmentNode var RangeNode = math.expression.node.RangeNode describe('FunctionAssignmentNode', function () { it('should create a FunctionAssignmentNode', function () { var n = new FunctionAssignmentNode('f', ['x'], new ConstantNode(2)) assert(n instanceof FunctionAssignmentNode) assert(n instanceof Node) assert.equal(n.type, 'FunctionAssignmentNode') }) it('should have isFunctionAssignmentNode', function () { var node = new FunctionAssignmentNode('f', ['x'], new ConstantNode(2)) assert(node.isFunctionAssignmentNode) }) it('should throw an error when calling without new operator', function () { assert.throws(function () { FunctionAssignmentNode('f', ['x'], new ConstantNode(2)) }, SyntaxError) }) it('should throw an error on wrong constructor arguments', function () { assert.throws(function () { new FunctionAssignmentNode() }, TypeError) assert.throws(function () { new FunctionAssignmentNode('a') }, TypeError) assert.throws(function () { new FunctionAssignmentNode('a', ['x']) }, TypeError) assert.throws(function () { new FunctionAssignmentNode(null, ['x'], new ConstantNode(2)) }, TypeError) }) it('should compile a FunctionAssignmentNode', function () { var a = new ConstantNode(2) var x = new SymbolNode('x') var o = new OperatorNode('+', 'add', [a, x]) var n = new FunctionAssignmentNode('f', ['x'], o) var expr = n.compile() var scope = {} var f = expr.eval(scope) assert.equal(typeof scope.f, 'function') assert.equal(scope.f(3), 5) assert.equal(scope.f(5), 7) }) it('should compile a typed FunctionAssignmentNode', function () { var a = new ConstantNode(2) var x = new SymbolNode('x') var o = new OperatorNode('+', 'add', [a, x]) var n = new FunctionAssignmentNode('f', [{name: 'x', type: 'number'}], o) var expr = n.compile() var scope = {} var f = expr.eval(scope) assert.equal(typeof scope.f, 'function') assert.equal(scope.f(3), 5) assert.equal(scope.f(5), 7) assert.throws(function () { scope.f(new Date()) }, /Unexpected type of argument in function f/) assert.throws(function () { scope.f(2, 2) }, /Too many arguments in function f/) assert.throws(function () { scope.f() }, /Too few arguments in function f/) }) it('should eval a recursive FunctionAssignmentNode', function () { var x = new SymbolNode('x') var one = new ConstantNode(1) var condition = new OperatorNode('<=', 'smallerEq', [x, one]) var truePart = one var falsePart = new OperatorNode('*', 'multiply', [ x, new FunctionNode(new SymbolNode('factorial'), [ new OperatorNode('-', 'subtract', [ x, one ]) ]) ]) var n1 = new ConditionalNode(condition, truePart, falsePart) var n2 = new FunctionAssignmentNode('factorial', ['x'], n1) var expr = n2.compile() var scope = {} var factorial = expr.eval(scope) assert.equal(typeof scope.factorial, 'function') assert.equal(factorial(3), 6) assert.equal(factorial(5), 120) }) it('should eval a recursive FunctionAssignmentNode with two recursive calls', function () { var x = new SymbolNode('x') var zero = new ConstantNode(0) var one = new ConstantNode(1) var two = new ConstantNode(2) var n1 = new ConditionalNode( new OperatorNode('<=', 'smallerEq', [x, zero]), zero, new ConditionalNode( new OperatorNode('<=', 'smallerEq', [x, two]), one, new OperatorNode('+', 'add', [ new FunctionNode(new SymbolNode('fib'), [ new OperatorNode('-', 'subtract', [ x, one ]) ]), new FunctionNode(new SymbolNode('fib'), [ new OperatorNode('-', 'subtract', [ x, two ]) ]) ]) ) ) var n2 = new FunctionAssignmentNode('fib', ['x'], n1) // var n2 = math.parse('fib(x) = (x <= 0) ? 0 : ((x <= 2) ? 1 : (fib(x - 1) + f(fib - 2)))'); var expr = n2.compile() var scope = {} var fib = expr.eval(scope) assert.equal(typeof fib, 'function') assert.equal(fib(0), 0) assert.equal(fib(1), 1) assert.equal(fib(2), 1) assert.equal(fib(3), 2) assert.equal(fib(4), 3) assert.equal(fib(5), 5) assert.equal(fib(6), 8) assert.equal(fib(7), 13) assert.equal(fib(8), 21) }) it('should pass function arguments in scope to functions with rawArgs', function () { var outputScope = function (args, math, scope) { return scope } outputScope.rawArgs = true math.import({ outputScope: outputScope }, { override: true }) // f(x) = outputScope(x) var x = new SymbolNode('x') var o = new FunctionNode('outputScope', [x]) var n = new FunctionAssignmentNode('f', ['x'], o) var scope = {a: 2} var f = n.eval(scope) assert.deepEqual(f(3), {a: 2, f: f}) }) it('should pass function arguments in scope to functions with rawArgs returned by another function', function () { var outputScope = function (args, math, scope) { return scope } outputScope.rawArgs = true var returnOutputScope = function () { return outputScope } math.import({ outputScope: outputScope, returnOutputScope: returnOutputScope }, { override: true }) // f(x, y) = returnOutputScope(x)(y) var a = new FunctionNode('returnOutputScope', [new SymbolNode('x')]) var b = new FunctionNode(a, [new SymbolNode('y')]) var n = new FunctionAssignmentNode('f', ['x', 'y'], b) var scope = {a: 2} var f = n.eval(scope) assert.deepEqual(f(3, 4), {a: 2, f: f}) }) it('should pass function arguments in scope to functions with rawArgs and transform', function () { var outputScope = function (x) { return 'should not occur' } outputScope.transform = function (args, math, scope) { return scope } outputScope.transform.rawArgs = true math.import({ outputScope: outputScope }, { override: true }) // f(x) = outputScope(x) var x = new SymbolNode('x') var o = new FunctionNode('outputScope', [x]) var n = new FunctionAssignmentNode('f', ['x'], o) var scope = {a: 2} var f = n.eval(scope) assert.deepEqual(f(3), {a: 2, f: f}) }) it('should filter a FunctionAssignmentNode', function () { var a = new ConstantNode(2) var x = new SymbolNode('x') var o = new OperatorNode('+', 'add', [a, x]) var n = new FunctionAssignmentNode('f', ['x'], o) assert.deepEqual(n.filter(function (node) { return node instanceof FunctionAssignmentNode }), [n]) assert.deepEqual(n.filter(function (node) { return node instanceof SymbolNode }), [x]) assert.deepEqual(n.filter(function (node) { return node instanceof RangeNode }), []) assert.deepEqual(n.filter(function (node) { return node instanceof ConstantNode }), [a]) assert.deepEqual(n.filter(function (node) { return node instanceof ConstantNode && node.value == '2' }), [a]) assert.deepEqual(n.filter(function (node) { return node instanceof ConstantNode && node.value == '4' }), []) }) it('should throw an error when creating a FunctionAssignmentNode with a reserved keyword', function () { assert.throws(function () { new FunctionAssignmentNode('end', ['x'], new ConstantNode(2)) }, /Illegal function name/) }) it('should filter a FunctionAssignmentNode without expression', function () { var e = new FunctionAssignmentNode('f', ['x'], new ConstantNode(2)) assert.deepEqual(e.filter(function (node) { return node instanceof FunctionAssignmentNode }), [e]) assert.deepEqual(e.filter(function (node) { return node instanceof SymbolNode }), []) }) it('should run forEach on a FunctionAssignmentNode', function () { var a = new ConstantNode(2) var n = new FunctionAssignmentNode('f', ['x'], a) var nodes = [] var paths = [] n.forEach(function (node, path, parent) { nodes.push(node) paths.push(path) assert.strictEqual(parent, n) }) assert.equal(nodes.length, 1) assert.strictEqual(nodes[0], a) assert.deepEqual(paths, ['expr']) }) it('should map a FunctionAssignmentNode', function () { var a = new ConstantNode(2) var n = new FunctionAssignmentNode('f', ['x'], a) var nodes = [] var paths = [] var e = new ConstantNode(3) var f = n.map(function (node, path, parent) { nodes.push(node) paths.push(path) assert.strictEqual(parent, n) return node instanceof SymbolNode && node.name == 'x' ? e : node }) assert.equal(nodes.length, 1) assert.strictEqual(nodes[0], a) assert.deepEqual(paths, ['expr']) assert.notStrictEqual(f, n) assert.deepEqual(f.expr, a) }) it('should throw an error when the map callback does not return a node', function () { var a = new ConstantNode(2) var n = new FunctionAssignmentNode('f', ['x'], a) assert.throws(function () { n.map(function () {}) }, /Callback function must return a Node/) }) it('should transform a FunctionAssignmentNodes (nested) parameters', function () { // f(x) = 2 + x var a = new ConstantNode(2) var x = new SymbolNode('x') var c = new OperatorNode('+', 'add', [a, x]) var n = new FunctionAssignmentNode('f', ['x'], c) var e = new ConstantNode(3) var f = n.transform(function (node) { return node instanceof SymbolNode && node.name == 'x' ? e : node }) assert.notStrictEqual(f, n) assert.deepEqual(f.expr.args[0], a) assert.deepEqual(f.expr.args[1], e) }) it('should transform a FunctionAssignmentNode itself', function () { // f(x) = 2 + x var a = new ConstantNode(2) var x = new SymbolNode('x') var c = new OperatorNode('+', 'add', [a, x]) var n = new FunctionAssignmentNode('f', ['x'], c) var e = new ConstantNode(5) var f = n.transform(function (node) { return node instanceof FunctionAssignmentNode ? e : node }) assert.notStrictEqual(f, n) assert.deepEqual(f, e) }) it('should clone a FunctionAssignmentNode', function () { // f(x) = 2 + x var a = new ConstantNode(2) var x = new SymbolNode('x') var c = new OperatorNode('+', 'add', [a, x]) var d = new FunctionAssignmentNode('f', ['x'], c) var e = d.clone() assert(e instanceof FunctionAssignmentNode) assert.deepEqual(e, d) assert.notStrictEqual(e, d) assert.strictEqual(e.expr, d.expr) }) it('test equality another Node', function () { var a = new FunctionAssignmentNode('f', ['x'], new OperatorNode('+', 'add', [new ConstantNode(2), new SymbolNode('x')])) var b = new FunctionAssignmentNode('f', ['x'], new OperatorNode('+', 'add', [new ConstantNode(2), new SymbolNode('x')])) var c = new FunctionAssignmentNode('g', ['x'], new OperatorNode('+', 'add', [new ConstantNode(2), new SymbolNode('x')])) var d = new FunctionAssignmentNode('f', ['y'], new OperatorNode('+', 'add', [new ConstantNode(2), new SymbolNode('x')])) var e = new FunctionAssignmentNode('f', ['x'], new OperatorNode('+', 'add', [new ConstantNode(3), new SymbolNode('x')])) var f = new SymbolNode('add') assert.strictEqual(a.equals(null), false) assert.strictEqual(a.equals(undefined), false) assert.strictEqual(a.equals(b), true) assert.strictEqual(a.equals(c), false) assert.strictEqual(a.equals(d), false) assert.strictEqual(a.equals(e), false) assert.strictEqual(a.equals(f), false) }) it('should respect the \'all\' parenthesis option', function () { var expr = math.parse('f(x)=x+1') assert.equal(expr.toString({parenthesis: 'all'}), 'f(x) = (x + 1)') assert.equal(expr.toTex({parenthesis: 'all'}), '\\mathrm{f}\\left(x\\right):=\\left( x+1\\right)') }) it('should stringify a FunctionAssignmentNode', function () { var a = new ConstantNode(2) var x = new SymbolNode('x') var o = new OperatorNode('+', 'add', [a, x]) var n = new FunctionAssignmentNode('f', ['x'], o) assert.equal(n.toString(), 'f(x) = 2 + x') }) it('should stringify a FunctionAssignmentNode containing an AssignmentNode', function () { var a = new ConstantNode(2) var n1 = new AssignmentNode(new SymbolNode('a'), a) var n = new FunctionAssignmentNode('f', ['x'], n1) assert.equal(n.toString(), 'f(x) = (a = 2)') }) it('should stringify a FunctionAssignmentNode with custom toString', function () { // Also checks if the custom functions get passed on to the children var customFunction = function (node, options) { if (node.type === 'FunctionAssignmentNode') { var string = '[' + node.name + '](' node.params.forEach(function (param) { string += param + ', ' }) string += ')=' + node.expr.toString(options) return string } else if (node.type === 'ConstantNode') { return 'const(' + node.value + ', ' + math.typeof(node.value) + ')' } } var a = new ConstantNode(1) var n = new FunctionAssignmentNode('func', ['x'], a) assert.equal(n.toString({handler: customFunction}), '[func](x, )=const(1, number)') }) it('toJSON and fromJSON', function () { var expr = new SymbolNode('add') var node = new FunctionAssignmentNode('f', [ {name: 'x', type: 'number'}, 'y' ], expr) var json = node.toJSON() assert.deepEqual(json, { mathjs: 'FunctionAssignmentNode', name: 'f', params: [ {name: 'x', type: 'number'}, {name: 'y', type: 'any'} ], expr: expr }) var parsed = FunctionAssignmentNode.fromJSON(json) assert.deepEqual(parsed, node) }) it('should LaTeX a FunctionAssignmentNode', function () { var a = new ConstantNode(2) var x = new SymbolNode('x') var o = new OperatorNode('/', 'divide', [x, a]) var p = new OperatorNode('^', 'pow', [o, a]) var n = new FunctionAssignmentNode('f', ['x'], p) assert.equal(n.toTex(), '\\mathrm{f}\\left(x\\right):=\\left({\\frac{ x}{2}}\\right)^{2}') }) it('should LaTeX a FunctionAssignmentNode containing an AssignmentNode', function () { var a = new ConstantNode(2) var n1 = new AssignmentNode(new SymbolNode('a'), a) var n = new FunctionAssignmentNode('f', ['x'], n1) assert.equal(n.toTex(), '\\mathrm{f}\\left(x\\right):=\\left( a:=2\\right)') }) it('should LaTeX a FunctionAssignmentNode with custom toTex', function () { // Also checks if the custom functions get passed on to the children var customFunction = function (node, options) { if (node.type === 'FunctionAssignmentNode') { var latex = '\\mbox{' + node.name + '}\\left(' node.params.forEach(function (param) { latex += param + ', ' }) latex += '\\right)=' + node.expr.toTex(options) return latex } else if (node.type === 'ConstantNode') { return 'const\\left(' + node.value + ', ' + math.typeof(node.value) + '\\right)' } } var a = new ConstantNode(1) var n = new FunctionAssignmentNode('func', ['x'], a) assert.equal(n.toTex({handler: customFunction}), '\\mbox{func}\\left(x, \\right)=const\\left(1, number\\right)') }) })