// test FunctionAssignmentNode var assert = require('assert'), approx = require('../../../tools/approx'), math = require('../../../index')(), Node = require('../../../lib/expression/node/Node'), ConstantNode = require('../../../lib/expression/node/ConstantNode'), OperatorNode = require('../../../lib/expression/node/OperatorNode'), FunctionAssignmentNode = require('../../../lib/expression/node/FunctionAssignmentNode'), RangeNode = require('../../../lib/expression/node/RangeNode'), SymbolNode = require('../../../lib/expression/node/SymbolNode'); describe('FunctionAssignmentNode', function() { it ('should create a FunctionAssignmentNode', function () { var n = new FunctionAssignmentNode('f', ['x'], new Node()); assert(n instanceof FunctionAssignmentNode); assert(n instanceof Node); assert.equal(n.type, 'FunctionAssignmentNode'); }); it ('should throw an error when calling without new operator', function () { assert.throws(function () {FunctionAssignmentNode('f', ['x'], new Node())}, 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('a', [2], new Node())}, TypeError); assert.throws(function () {new FunctionAssignmentNode(null, ['x'], new Node())}, 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(math); 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()}, SyntaxError); assert.throws(function () {scope.f(2, 3)}, SyntaxError); }); it ('should find 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.find({type: FunctionAssignmentNode}), [n]); assert.deepEqual(n.find({type: SymbolNode}), [x]); assert.deepEqual(n.find({type: RangeNode}), []); assert.deepEqual(n.find({type: ConstantNode}), [a]); assert.deepEqual(n.find({type: ConstantNode, properties: {value: '2'}}), [a]); assert.deepEqual(n.find({type: ConstantNode, properties: {value: '4'}}), []); }); it ('should throw an error when creating a FunctionAssignmentNode with a reserved keyword', function () { assert.throws(function () { new FunctionAssignmentNode('end', ['x'], new Node()); }, /Illegal function name/) }); it ('should find a FunctionAssignmentNode without expression', function () { var e = new FunctionAssignmentNode('f', ['x'], new Node()); assert.deepEqual(e.find({type: FunctionAssignmentNode}), [e]); assert.deepEqual(e.find({type: SymbolNode}), []); }); it ('should match a FunctionAssignmentNode', function () { var a = new FunctionAssignmentNode('f', ['x'], new Node()); assert.equal(a.match({type: FunctionAssignmentNode}), true); assert.equal(a.match({type: SymbolNode}), false); }); 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(), 'function f(x) = 2 + x'); }); 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(), 'f\\left({x}\\right)={\\left({\\frac{x}{2}}\\right)^{2}}'); }); });