// test FunctionNode var assert = require('assert'); var approx = require('../../../tools/approx'); var math = require('../../../index'); var Node = require('../../../lib/expression/node/Node'); var ConstantNode = require('../../../lib/expression/node/ConstantNode'); var SymbolNode = require('../../../lib/expression/node/SymbolNode'); var RangeNode = require('../../../lib/expression/node/RangeNode'); var FunctionNode = require('../../../lib/expression/node/FunctionNode'); var OperatorNode = require('../../../lib/expression/node/OperatorNode'); describe('FunctionNode', function() { it ('should create a FunctionNode', function () { var c = new ConstantNode(4); var n = new FunctionNode('sqrt', [c]); assert(n instanceof FunctionNode); assert(n instanceof Node); assert.equal(n.type, 'FunctionNode'); }); it ('should throw an error when calling without new operator', function () { var s = new SymbolNode('sqrt'); var c = new ConstantNode(4); assert.throws(function () {FunctionNode(s, [c])}, SyntaxError); }); it ('should throw an error when calling with wrong arguments', function () { var s = new SymbolNode('sqrt'); var c = new ConstantNode(4); assert.throws(function () {new FunctionNode(s, [])}, TypeError); assert.throws(function () {new FunctionNode('sqrt', [2, 3])}, TypeError); assert.throws(function () {new FunctionNode('sqrt', [c, 3])}, TypeError); }); it ('should compile a FunctionNode', function () { var c = new ConstantNode(4); var n = new FunctionNode('sqrt', [c]); var scope = {}; assert.equal(n.compile(math).eval(scope), 2); }); it ('should compile a FunctionNode with a raw function', function () { var mymath = math.create(); function myFunction (args, _math, _scope) { assert.equal(args.length, 2); assert(args[0] instanceof Node); assert(args[1] instanceof Node); assert.deepEqual(_math.__proto__, mymath); assert.strictEqual(_scope, scope); return 'myFunction(' + args.join(', ') + ')'; } myFunction.rawArgs = true; mymath.import({myFunction: myFunction}); var a = new ConstantNode(4); var b = new ConstantNode(5); var n = new FunctionNode('myFunction', [a, b]); var scope = {}; assert.equal(n.compile(mymath).eval(scope), 'myFunction(4, 5)'); }); it ('should compile a FunctionNode with overloaded a raw function', function () { var mymath = math.create(); function myFunction (args, _math, _scope) { assert.ok(false, 'should not be executed'); } myFunction.rawArgs = true; mymath.import({myFunction: myFunction}); var a = new ConstantNode(4); var b = new ConstantNode(5); var n = new FunctionNode('myFunction', [a, b]); var scope = { myFunction: function () { return 42; } }; assert.equal(n.compile(mymath).eval(scope), 42); }); it ('should filter a FunctionNode', function () { var b = new ConstantNode(2); var c = new ConstantNode(1); var n = new FunctionNode('a', [b, c]); assert.deepEqual(n.filter(function (node) {return node instanceof FunctionNode}), [n]); assert.deepEqual(n.filter(function (node) {return node instanceof RangeNode}), []); assert.deepEqual(n.filter(function (node) {return node instanceof ConstantNode}), [b, c]); assert.deepEqual(n.filter(function (node) {return node instanceof ConstantNode && node.value == '2'}), [b]); assert.deepEqual(n.filter(function (node) {return node instanceof ConstantNode && node.value == '4'}), []); }); it ('should transform a FunctionNodes (nested) parameters', function () { // multiply(x + 2, x) var a = new SymbolNode('x'); var b = new ConstantNode(2); var c = new OperatorNode('+', 'add', [a, b]); var d = new SymbolNode('x'); var f = new FunctionNode('multiply', [c, d]); var g = new ConstantNode(3); var h = f.transform(function (node) { return node instanceof SymbolNode && node.name == 'x' ? g : node; }); assert.strictEqual(h, f); assert.deepEqual(h.args[0].args[0], g); assert.deepEqual(h.args[0].args[1], b); assert.deepEqual(h.name, 'multiply'); assert.deepEqual(h.args[1], g); }); it ('should transform a FunctionNodes name', function () { // add(2, 3) var b = new ConstantNode(2); var c = new ConstantNode(3); var d = new FunctionNode('add', [b, c]); var f = d.transform(function (node) { if (node instanceof FunctionNode) { node.name = 'subtract'; } return node; }); assert.strictEqual(f, d); assert.deepEqual(f.name, 'subtract'); }); it ('should transform a FunctionNode itself', function () { // add(2, 3) var b = new ConstantNode(2); var c = new ConstantNode(3); var d = new FunctionNode('add', [b, c]); var e = new ConstantNode(5); var f = d.transform(function (node) { return node instanceof FunctionNode ? e : node; }); assert.strictEqual(f, e); }); it ('should traverse a FunctionNode', function () { // add(2, 3) var b = new ConstantNode(2); var c = new ConstantNode(3); var d = new FunctionNode('add', [b, c]); var count = 0; d.traverse(function (node, index, parent) { count++; switch(count) { case 1: assert.strictEqual(node, d); assert.strictEqual(index, null); assert.strictEqual(parent, null); break; case 2: assert.strictEqual(node, b); assert.strictEqual(index, 'args.0'); assert.strictEqual(parent, d); break; case 3: assert.strictEqual(node, c); assert.strictEqual(index, 'args.1'); assert.strictEqual(parent, d); break; } }); assert.equal(count, 3); }); it ('should clone a FunctionNode', function () { // add(2, 3) var b = new ConstantNode(2); var c = new ConstantNode(3); var d = new FunctionNode('add', [b, c]); var e = d.clone(); assert(e instanceof FunctionNode); assert.deepEqual(e, d); assert.notStrictEqual(e, d); assert.equal(e.name, d.name); assert.notStrictEqual(e.args[0], d.args[0]); assert.notStrictEqual(e.args[1], d.args[1]); }); it ('should stringify a FunctionNode', function () { var c = new ConstantNode(4); var n = new FunctionNode('sqrt', [c]); assert.equal(n.toString(), 'sqrt(4)'); }); it ('should LaTeX a FunctionNode', function () { var c = new ConstantNode(4); var n = new FunctionNode('sqrt', [c]); assert.equal(n.toTex(), '\\sqrt{4}'); }); });