// test AssignmentNode import assert from 'assert' import math from '../../../../src/defaultInstance.js' const Node = math.Node const AccessorNode = math.AccessorNode const ConstantNode = math.ConstantNode const SymbolNode = math.SymbolNode const RangeNode = math.RangeNode const AssignmentNode = math.AssignmentNode const OperatorNode = math.OperatorNode const IndexNode = math.IndexNode describe('AssignmentNode', function () { it('should create an AssignmentNode', function () { const n = new AssignmentNode(new SymbolNode('a'), new Node()) assert(n instanceof AssignmentNode) assert(n instanceof Node) assert.strictEqual(n.type, 'AssignmentNode') }) it('should have property isAssignmentNode', function () { const node = new AssignmentNode(new SymbolNode('a'), new Node()) assert(node.isAssignmentNode) }) it('should throw an error when calling without new operator', function () { assert.throws( () => AssignmentNode(new SymbolNode('a'), new Node()), TypeError) }) it('should throw an error when creating an AssignmentNode with a reserved keyword', function () { assert.throws(function () { console.log(new AssignmentNode(new SymbolNode('end'), new Node())) }, /Cannot assign to symbol "end"/) }) it('should throw an error on wrong constructor arguments', function () { assert.throws(function () { console.log(new AssignmentNode()) }, TypeError) assert.throws(function () { console.log(new AssignmentNode(new Node(), new Node())) }, TypeError) assert.throws(function () { console.log(new AssignmentNode('a', new Node())) }, TypeError) assert.throws(function () { console.log(new AssignmentNode(2, new Node())) }, TypeError) assert.throws(function () { console.log(new AssignmentNode(new Node(), new Node(), new Node())) }, TypeError) }) it('should get the name of an AssignmentNode', function () { const n = new AssignmentNode(new SymbolNode('a'), new ConstantNode(1)) assert.strictEqual(n.name, 'a') const n2 = new AccessorNode(new SymbolNode('a'), new IndexNode([new ConstantNode('b')])) const n3 = new AssignmentNode(n2, new ConstantNode(1)) assert.strictEqual(n3.name, 'b') const n4 = new AssignmentNode(new SymbolNode('a'), new IndexNode([new ConstantNode('b')]), new ConstantNode(1)) assert.strictEqual(n4.name, 'b') const n5 = new AssignmentNode(new SymbolNode('a'), new IndexNode([new ConstantNode(1)]), new ConstantNode(1)) assert.strictEqual(n5.name, '') }) it('should compile an AssignmentNode without index', function () { const n = new AssignmentNode(new SymbolNode('b'), new ConstantNode(3)) const expr = n.compile() const scope = {} assert.strictEqual(expr.evaluate(scope), 3) assert.strictEqual(scope.b, 3) }) it('should compile an AssignmentNode with property index', function () { const object = new SymbolNode('a') const index = new IndexNode([new ConstantNode('b')]) const value = new ConstantNode(3) const n = new AssignmentNode(object, index, value) const expr = n.compile() const scope = { a: {} } assert.strictEqual(expr.evaluate(scope), 3) assert.deepStrictEqual(scope, { a: { b: 3 } }) }) it('should compile an AssignmentNode with nested property index', function () { const a = new SymbolNode('a') const object = new AccessorNode(a, new IndexNode([new ConstantNode('b')])) const index = new IndexNode([new ConstantNode('c')]) const value = new ConstantNode(3) const n = new AssignmentNode(object, index, value) const expr = n.compile() const scope = { a: { b: {} } } assert.strictEqual(expr.evaluate(scope), 3) assert.deepStrictEqual(scope, { a: { b: { c: 3 } } }) }) it('should compile an AssignmentNode with matrix index', function () { const object = new SymbolNode('a') const index = new IndexNode([ new ConstantNode(2), new ConstantNode(1) ]) const value = new ConstantNode(5) const n = new AssignmentNode(object, index, value) const expr = n.compile() const scope = { a: [[0, 0], [0, 0]] } assert.strictEqual(expr.evaluate(scope), 5) assert.deepStrictEqual(scope, { a: [[0, 0], [5, 0]] }) }) it('should compile an AssignmentNode with range and context parameters', function () { const object = new SymbolNode('a') const index = new IndexNode([ new ConstantNode(2), new RangeNode( new ConstantNode(1), new SymbolNode('end') ) ]) const value = new SymbolNode('b') const n = new AssignmentNode(object, index, value) const expr = n.compile() const scope = { a: [[0, 0], [0, 0]], b: [5, 6] } assert.deepStrictEqual(expr.evaluate(scope), [5, 6]) assert.deepStrictEqual(scope, { a: [[0, 0], [5, 6]], b: [5, 6] }) }) it('should compile an AssignmentNode with bignumber setting', function () { const bigmath = math.create({ number: 'BigNumber' }) const object = new bigmath.SymbolNode('a') const index = new bigmath.IndexNode([ new bigmath.ConstantNode(2), new bigmath.ConstantNode(1) ]) const value = new bigmath.ConstantNode(bigmath.bignumber(5)) const n = new bigmath.AssignmentNode(object, index, value) const expr = n.compile() const scope = { a: [[0, 0], [0, 0]] } assert.deepStrictEqual(expr.evaluate(scope), bigmath.bignumber(5)) assert.deepStrictEqual(scope, { a: [[0, 0], [bigmath.bignumber(5), 0]] }) }) it('should throw an error when applying an index onto a scalar', function () { const a = new SymbolNode('a') const index = new IndexNode([new ConstantNode(4)]) const value = new ConstantNode(2) const n = new AssignmentNode(a, index, value) const expr = n.compile() const scope = { a: 42 } assert.throws(function () { expr.evaluate(scope) }, /Cannot apply index: unsupported type of object/) }) it('should filter an AssignmentNode', function () { const a = new SymbolNode('a') const b = new ConstantNode(2) const c = new ConstantNode(1) const i = new IndexNode([b, c]) const v = new ConstantNode(2) const n = new AssignmentNode(a, i, v) assert.deepStrictEqual(n.filter(function (node) { return node.isAssignmentNode }), [n]) assert.deepStrictEqual(n.filter(function (node) { return node.isSymbolNode }), [a]) assert.deepStrictEqual(n.filter(function (node) { return node.isConstantNode }), [b, c, v]) assert.deepStrictEqual(n.filter(function (node) { return node.value === 1 }), [c]) assert.deepStrictEqual(n.filter(function (node) { return node.value === 2 }), [b, v]) assert.deepStrictEqual(n.filter(function (node) { return node.name === 'q' }), []) }) it('should filter an AssignmentNode without index', function () { const a = new SymbolNode('a') const v = new ConstantNode(2) const n = new AssignmentNode(a, v) assert.deepStrictEqual(n.filter(function (node) { return node.isAssignmentNode }), [n]) assert.deepStrictEqual(n.filter(function (node) { return node.isSymbolNode }), [a]) assert.deepStrictEqual(n.filter(function (node) { return node.isConstantNode }), [v]) assert.deepStrictEqual(n.filter(function (node) { return node.value === 2 }), [v]) assert.deepStrictEqual(n.filter(function (node) { return node.name === 'q' }), []) }) it('should run forEach on an AssignmentNode', function () { // A[1, x] = 3 const a = new SymbolNode('A') const b = new ConstantNode(2) const c = new SymbolNode('x') const i = new IndexNode([b, c]) const v = new ConstantNode(3) const n = new AssignmentNode(a, i, v) const nodes = [] const paths = [] n.forEach(function (node, path, parent) { nodes.push(node) paths.push(path) assert.strictEqual(parent, n) }) assert.strictEqual(nodes.length, 3) assert.strictEqual(nodes[0], a) assert.strictEqual(nodes[1], i) assert.strictEqual(nodes[2], v) assert.deepStrictEqual(paths, ['object', 'index', 'value']) }) it('should run forEach on an AssignmentNode without index', function () { // A[1, x] = 3 const a = new SymbolNode('A') const v = new ConstantNode(3) const n = new AssignmentNode(a, v) const nodes = [] const paths = [] n.forEach(function (node, path, parent) { nodes.push(node) paths.push(path) assert.strictEqual(parent, n) }) assert.strictEqual(nodes.length, 2) assert.strictEqual(nodes[0], a) assert.strictEqual(nodes[1], v) assert.deepStrictEqual(paths, ['object', 'value']) }) it('should map an AssignmentNode', function () { // A[1, x] = 3 const a = new SymbolNode('A') const b = new ConstantNode(2) const c = new SymbolNode('x') const i = new IndexNode([b, c]) const v = new ConstantNode(3) const n = new AssignmentNode(a, i, v) const nodes = [] const paths = [] const e = new ConstantNode(4) const 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.strictEqual(nodes.length, 3) assert.strictEqual(nodes[0], a) assert.strictEqual(nodes[1], i) assert.strictEqual(nodes[2], v) assert.deepStrictEqual(paths, ['object', 'index', 'value']) assert.notStrictEqual(f, n) assert.deepStrictEqual(f.object, a) assert.deepStrictEqual(f.index.dimensions[0], b) assert.deepStrictEqual(f.index.dimensions[1], c) // not replaced, is nested assert.deepStrictEqual(f.value, v) }) it('should map an AssignmentNode without index', function () { // a = x + 2 const a = new SymbolNode('a') const x = new SymbolNode('x') const d = new AssignmentNode(a, x) const e = new ConstantNode(3) const nodes = [] const paths = [] const f = d.map(function (node, path, parent) { nodes.push(node) paths.push(path) assert.strictEqual(parent, d) return node instanceof SymbolNode && node.name === 'x' ? e : node }) assert.strictEqual(nodes.length, 2) assert.strictEqual(nodes[0], a) assert.strictEqual(nodes[1], x) assert.deepStrictEqual(paths, ['object', 'value']) assert.notStrictEqual(f, d) assert.strictEqual(d.value, x) assert.strictEqual(f.value, e) }) it('should throw an error when the map callback does not return a node', function () { // A[1, x] = 3 const a = new SymbolNode('A') const b = new ConstantNode(2) const c = new SymbolNode('x') const i = new IndexNode([b, c]) const v = new ConstantNode(3) const n = new AssignmentNode(a, i, v) assert.throws(function () { n.map(function () { return undefined }) }, /Callback function must return a Node/) }) it('should transform an AssignmentNodes (nested) parameters', function () { // a = x + 2 const object = new SymbolNode('a') const x = new SymbolNode('x') const index = new IndexNode([x]) const b = new ConstantNode(2) const value = new OperatorNode('+', 'add', [x, b]) const d = new AssignmentNode(object, index, value) const e = new ConstantNode(3) const f = d.transform(function (node) { return node.isSymbolNode && node.name === 'x' ? e : node }) assert.notStrictEqual(f, d) assert.deepStrictEqual(f.index.dimensions[0], e) assert.deepStrictEqual(f.value.args[0], e) assert.deepStrictEqual(f.value.args[1], b) }) it('should transform an AssignmentNode itself', function () { // a = x + 2 const object = new SymbolNode('a') const x = new SymbolNode('x') const b = new ConstantNode(2) const c = new OperatorNode('+', 'add', [x, b]) const d = new AssignmentNode(object, c) const e = new ConstantNode(5) const f = d.transform(function (node) { return node instanceof AssignmentNode ? e : node }) assert.notStrictEqual(f, d) assert.deepStrictEqual(f, e) }) it('should traverse an AssignmentNode', function () { const object = new SymbolNode('a') const i = new IndexNode([]) const value = new ConstantNode(2) const a = new AssignmentNode(object, i, value) let count = 0 a.traverse(function (node, index, parent) { count++ switch (count) { case 1: assert.strictEqual(node, a) assert.strictEqual(index, null) assert.strictEqual(parent, null) break case 2: assert.strictEqual(node, object) assert.strictEqual(index, 'object') assert.strictEqual(parent, a) break case 3: assert.strictEqual(node, i) assert.strictEqual(index, 'index') assert.strictEqual(parent, a) break case 4: assert.strictEqual(node, value) assert.strictEqual(index, 'value') assert.strictEqual(parent, a) break } }) assert.strictEqual(count, 4) }) it('should clone an AssignmentNode without index', function () { const object = new SymbolNode('a') const value = new ConstantNode(2) const a = new AssignmentNode(object, value) const b = a.clone() assert(b instanceof AssignmentNode) assert.deepStrictEqual(b, a) assert.notStrictEqual(b, a) assert.strictEqual(b.object, a.object) assert.strictEqual(b.index, a.index) assert.strictEqual(b.value, a.value) }) it('should clone an AssignmentNode', function () { // A[1, x] = 3 const a = new SymbolNode('A') const b = new ConstantNode(2) const c = new SymbolNode('x') const i = new IndexNode([b, c]) const v = new ConstantNode(3) const d = new AssignmentNode(a, i, v) const e = d.clone() assert(e instanceof AssignmentNode) assert.deepStrictEqual(e, d) assert.notStrictEqual(e, d) assert.strictEqual(e.object, d.object) assert.strictEqual(e.index, d.index) assert.strictEqual(e.value, d.value) }) it('test equality another Node', function () { const a = new AssignmentNode( new SymbolNode('A'), new IndexNode([new ConstantNode(2), new SymbolNode('x')]), new ConstantNode(3)) const b = new AssignmentNode( new SymbolNode('A'), new IndexNode([new ConstantNode(2), new SymbolNode('x')]), new ConstantNode(3)) const c = new AssignmentNode( new SymbolNode('B'), new IndexNode([new ConstantNode(2), new SymbolNode('x')]), new ConstantNode(3)) const d = new AssignmentNode( new SymbolNode('A'), new IndexNode([new ConstantNode(2)]), new ConstantNode(3)) const e = new AssignmentNode( new SymbolNode('A'), new IndexNode([new ConstantNode(2), new SymbolNode('x')]), new ConstantNode(4)) 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) }) it('should respect the \'all\' parenthesis option', function () { const object = new SymbolNode('a') const value = new ConstantNode(1) const n = new AssignmentNode(object, value) assert.strictEqual(n.toString({ parenthesis: 'all' }), 'a = (1)') assert.strictEqual(n.toTex({ parenthesis: 'all' }), ' a=\\left(1\\right)') }) it('should stringify a AssignmentNode', function () { const object = new SymbolNode('b') const value = new ConstantNode(3) const n = new AssignmentNode(object, value) assert.strictEqual(n.toString(), 'b = 3') }) it('should stringify an AssignmentNode containing an AssignmentNode', function () { const value = new ConstantNode(2) const a = new AssignmentNode(new SymbolNode('a'), value) const n = new AssignmentNode(new SymbolNode('b'), a) assert.strictEqual(n.toString(), 'b = (a = 2)') }) it('should stringify an AssignmentNode with custom toString', function () { // Also checks if custom funcions get passed to the children const customFunction = function (node, options) { if (node.type === 'AssignmentNode') { return node.object.toString(options) + (node.index ? node.index.toString(options) : '') + ' equals ' + node.value.toString(options) } else if (node.type === 'ConstantNode') { return 'const(' + node.value + ', ' + math.typeOf(node.value) + ')' } } const object = new SymbolNode('a') const value = new ConstantNode(1) const n = new AssignmentNode(object, value) assert.strictEqual(n.toString({ handler: customFunction }), 'a equals const(1, number)') }) it('should stringify an AssignmentNode with custom toHTML', function () { // Also checks if custom funcions get passed to the children const customFunction = function (node, options) { if (node.type === 'AssignmentNode') { return node.object.toHTML(options) + (node.index ? node.index.toHTML(options) : '') + ' equals ' + node.value.toHTML(options) } else if (node.type === 'ConstantNode') { return 'const(' + node.value + ', ' + math.typeOf(node.value) + ')' } } const object = new SymbolNode('a') const value = new ConstantNode(1) const n = new AssignmentNode(object, value) assert.strictEqual(n.toHTML({ handler: customFunction }), 'a equals const(1, number)') }) it('toJSON and fromJSON', function () { const a = new SymbolNode('a') const b = new ConstantNode(1) const c = new ConstantNode(2) const d = new ConstantNode(3) const node = new AssignmentNode(a, new IndexNode([b, c]), d) const json = node.toJSON() assert.deepStrictEqual(json, { mathjs: 'AssignmentNode', index: node.index, object: a, value: d }) const parsed = AssignmentNode.fromJSON(json) assert.deepStrictEqual(parsed, node) }) it('should LaTeX a AssignmentNode', function () { const value = new ConstantNode(2) const a = new AssignmentNode(new SymbolNode('a'), value) assert.strictEqual(a.toTex(), ' a=2') }) it('should LaTeX an AssignmentNode containing an AssignmentNode', function () { const value = new ConstantNode(2) const a = new AssignmentNode(new SymbolNode('a'), value) const q = new AssignmentNode(new SymbolNode('q'), a) assert.strictEqual(q.toTex(), ' q=\\left( a=2\\right)') }) it('should LaTeX an AssignmentNode with custom toTex', function () { // Also checks if custom funcions get passed to the children const customFunction = function (node, options) { if (node.isAssignmentNode) { return node.object.toTex(options) + (node.index ? node.index.toTex(options) : '') + '\\mbox{equals}' + node.value.toTex(options) } else if (node.type === 'ConstantNode') { return 'const\\left(' + node.value + ', ' + math.typeOf(node.value) + '\\right)' } } const object = new SymbolNode('a') const value = new ConstantNode(1) const n = new AssignmentNode(object, value) assert.strictEqual(n.toTex({ handler: customFunction }), ' a\\mbox{equals}const\\left(1, number\\right)') }) })