import fs from 'node:fs' import { parse, ProgramMemory, SketchGroup, initPromise } from './wasm' import { enginelessExecutor } from '../lib/testHelpers' import { KCLError } from './errors' beforeAll(() => initPromise) describe('test executor', () => { it('test assigning two variables, the second summing with the first', async () => { const code = `const myVar = 5 const newVar = myVar + 1` const { root } = await exe(code) expect(root.myVar.value).toBe(5) expect(root.newVar.value).toBe(6) }) it('test assigning a var with a string', async () => { const code = `const myVar = "a str"` const { root } = await exe(code) expect(root.myVar.value).toBe('a str') }) it('test assigning a var by cont concatenating two strings string execute', async () => { const code = fs.readFileSync( './src/lang/testExamples/variableDeclaration.cado', 'utf-8' ) const { root } = await exe(code) expect(root.myVar.value).toBe('a str another str') }) it('fn funcN = () => {} execute', async () => { const { root } = await exe( [ 'fn funcN = (a, b) => {', ' return a + b', '}', 'const theVar = 60', 'const magicNum = funcN(9, theVar)', ].join('\n') ) expect(root.theVar.value).toBe(60) expect(root.magicNum.value).toBe(69) }) it('sketch declaration', async () => { let code = `const mySketch = startSketchOn('XY') |> startProfileAt([0,0], %) |> lineTo({to: [0,2], tag: "myPath"}, %) |> lineTo([2,3], %) |> lineTo({ to: [5,-1], tag: "rightPath" }, %) // |> close(%) show(mySketch) ` const { root, return: _return } = await exe(code) // geo is three js buffer geometry and is very bloated to have in tests const minusGeo = root.mySketch.value expect(minusGeo).toEqual([ { type: 'toPoint', to: [0, 2], from: [0, 0], __geoMeta: { sourceRange: [72, 109], id: expect.any(String), }, name: 'myPath', }, { type: 'toPoint', to: [2, 3], from: [0, 2], name: '', __geoMeta: { sourceRange: [115, 131], id: expect.any(String), }, }, { type: 'toPoint', to: [5, -1], from: [2, 3], __geoMeta: { sourceRange: [137, 180], id: expect.any(String), }, name: 'rightPath', }, ]) // expect(root.mySketch.sketch[0]).toEqual(root.mySketch.sketch[4].firstPath) expect(_return).toEqual([ { type: 'Identifier', start: 203, end: 211, name: 'mySketch', }, ]) }) it('pipe binary expression into call expression', async () => { const code = [ 'fn myFn = (a) => { return a + 1 }', 'const myVar = 5 + 1 |> myFn(%)', ].join('\n') const { root } = await exe(code) expect(root.myVar.value).toBe(7) }) // Enable rotations #152 // it('rotated sketch', async () => { // const code = [ // 'const mySk1 = startSketchAt([0,0])', // ' |> lineTo([1,1], %)', // ' |> lineTo({to: [0, 1], tag: "myPath"}, %)', // ' |> lineTo([1, 1], %)', // 'const rotated = rx(90, mySk1)', // ].join('\n') // const { root } = await exe(code) // expect(root.mySk1.value).toHaveLength(3) // expect(root?.rotated?.type).toBe('SketchGroup') // if ( // root?.mySk1?.type !== 'SketchGroup' || // root?.rotated?.type !== 'SketchGroup' // ) // throw new Error('not a sketch group') // expect(root.mySk1.rotation).toEqual([0, 0, 0, 1]) // expect(root.rotated.rotation.map((a) => a.toFixed(4))).toEqual([ // '0.7071', // '0.0000', // '0.0000', // '0.7071', // ]) // }) it('execute pipe sketch into call expression', async () => { // Enable rotations #152 const code = [ "const mySk1 = startSketchOn('XY')", ' |> startProfileAt([0,0], %)', ' |> lineTo([1,1], %)', ' |> lineTo({to: [0, 1], tag: "myPath"}, %)', ' |> lineTo([1,1], %)', // ' |> rx(90, %)', ].join('\n') const { root } = await exe(code) expect(root.mySk1).toEqual({ type: 'SketchGroup', start: { to: [0, 0], from: [0, 0], name: '', __geoMeta: { id: expect.any(String), sourceRange: [39, 63], }, }, value: [ { type: 'toPoint', to: [1, 1], from: [0, 0], name: '', __geoMeta: { sourceRange: [69, 85], id: expect.any(String), }, }, { type: 'toPoint', to: [0, 1], from: [1, 1], __geoMeta: { sourceRange: [91, 129], id: expect.any(String), }, name: 'myPath', }, { type: 'toPoint', to: [1, 1], from: [0, 1], name: '', __geoMeta: { sourceRange: [135, 151], id: expect.any(String), }, }, ], position: [0, 0, 0], rotation: [0, 0, 0, 1], id: expect.any(String), planeId: expect.any(String), __meta: [{ sourceRange: [39, 63] }], }) }) it('execute array expression', async () => { const code = ['const three = 3', "const yo = [1, '2', three, 4 + 5]"].join( '\n' ) const { root } = await exe(code) // TODO path to node is probably wrong here, zero indexes are not correct expect(root).toEqual({ three: { type: 'UserVal', value: 3, __meta: [ { sourceRange: [14, 15], }, ], }, yo: { type: 'UserVal', value: [1, '2', 3, 9], __meta: [ { sourceRange: [27, 49], }, ], }, }) }) it('execute object expression', async () => { const code = [ 'const three = 3', "const yo = {aStr: 'str', anum: 2, identifier: three, binExp: 4 + 5}", ].join('\n') const { root } = await exe(code) expect(root.yo).toEqual({ type: 'UserVal', value: { aStr: 'str', anum: 2, identifier: 3, binExp: 9 }, __meta: [ { sourceRange: [27, 83], }, ], }) }) it('execute memberExpression', async () => { const code = ["const yo = {a: {b: '123'}}", "const myVar = yo.a['b']"].join( '\n' ) const { root } = await exe(code) expect(root.myVar).toEqual({ type: 'UserVal', value: '123', __meta: [ { sourceRange: [41, 50], }, ], }) }) }) describe('testing math operators', () => { it('can sum', async () => { const code = ['const myVar = 1 + 2'].join('\n') const { root } = await exe(code) expect(root.myVar.value).toBe(3) }) it('can subtract', async () => { const code = ['const myVar = 1 - 2'].join('\n') const { root } = await exe(code) expect(root.myVar.value).toBe(-1) }) it('can multiply', async () => { const code = ['const myVar = 1 * 2'].join('\n') const { root } = await exe(code) expect(root.myVar.value).toBe(2) }) it('can divide', async () => { const code = ['const myVar = 1 / 2'].join('\n') const { root } = await exe(code) expect(root.myVar.value).toBe(0.5) }) it('can modulus', async () => { const code = ['const myVar = 5 % 2'].join('\n') const { root } = await exe(code) expect(root.myVar.value).toBe(1) }) it('can do multiple operations', async () => { const code = ['const myVar = 1 + 2 * 3'].join('\n') const { root } = await exe(code) expect(root.myVar.value).toBe(7) }) it('big example with parans', async () => { const code = ['const myVar = 1 + 2 * (3 - 4) / -5 + 6'].join('\n') const { root } = await exe(code) expect(root.myVar.value).toBe(7.4) }) it('with identifier', async () => { const code = ['const yo = 6', 'const myVar = yo / 2'].join('\n') const { root } = await exe(code) expect(root.myVar.value).toBe(3) }) it('with lots of testing', async () => { const code = ['const myVar = 2 * ((2 + 3 ) / 4 + 5)'].join('\n') const { root } = await exe(code) expect(root.myVar.value).toBe(12.5) }) it('with callExpression at start', async () => { const code = 'const myVar = min(4, 100) + 2' const { root } = await exe(code) expect(root.myVar.value).toBe(6) }) it('with callExpression at end', async () => { const code = 'const myVar = 2 + min(4, 100)' const { root } = await exe(code) expect(root.myVar.value).toBe(6) }) it('with nested callExpression', async () => { const code = 'const myVar = 2 + min(100, legLen(5, 3))' const { root } = await exe(code) expect(root.myVar.value).toBe(6) }) it('with unaryExpression', async () => { const code = 'const myVar = -min(100, 3)' const { root } = await exe(code) expect(root.myVar.value).toBe(-3) }) it('with unaryExpression in callExpression', async () => { const code = 'const myVar = min(-legLen(5, 4), 5)' const code2 = 'const myVar = min(5 , -legLen(5, 4))' const { root } = await exe(code) const { root: root2 } = await exe(code2) expect(root.myVar.value).toBe(-3) expect(root.myVar.value).toBe(root2.myVar.value) }) it('with unaryExpression in ArrayExpression', async () => { const code = 'const myVar = [1,-legLen(5, 4)]' const { root } = await exe(code) expect(root.myVar.value).toEqual([1, -3]) }) it('with unaryExpression in ArrayExpression in CallExpression, checking nothing funny happens when used in a sketch', async () => { const code = [ "const part001 = startSketchOn('XY')", ' |> startProfileAt([0, 0], %)', '|> line([-2.21, -legLen(5, min(3, 999))], %)', ].join('\n') const { root } = await exe(code) const sketch = root.part001 // result of `-legLen(5, min(3, 999))` should be -4 const yVal = (sketch as SketchGroup).value?.[0]?.to?.[1] expect(yVal).toBe(-4) }) it('test that % substitution feeds down CallExp->ArrExp->UnaryExp->CallExp', async () => { const code = [ `const myVar = 3`, `const part001 = startSketchOn('XY')`, ` |> startProfileAt([0, 0], %)`, ` |> line({ to: [3, 4], tag: 'seg01' }, %)`, ` |> line([`, ` min(segLen('seg01', %), myVar),`, ` -legLen(segLen('seg01', %), myVar)`, `], %)`, ``, `show(part001)`, ].join('\n') const { root } = await exe(code) const sketch = root.part001 // expect -legLen(segLen('seg01', %), myVar) to equal -4 setting the y value back to 0 expect((sketch as SketchGroup).value?.[1]?.from).toEqual([3, 4]) expect((sketch as SketchGroup).value?.[1]?.to).toEqual([6, 0]) const removedUnaryExp = code.replace( `-legLen(segLen('seg01', %), myVar)`, `legLen(segLen('seg01', %), myVar)` ) const { root: removedUnaryExpRoot } = await exe(removedUnaryExp) const removedUnaryExpRootSketch = removedUnaryExpRoot.part001 // without the minus sign, the y value should be 8 expect((removedUnaryExpRootSketch as SketchGroup).value?.[1]?.to).toEqual([ 6, 8, ]) }) it('with nested callExpression and binaryExpression', async () => { const code = 'const myVar = 2 + min(100, -1 + legLen(5, 3))' const { root } = await exe(code) expect(root.myVar.value).toBe(5) }) }) describe('Testing Errors', () => { it('should throw an error when a variable is not defined', async () => { const code = `const myVar = 5 const theExtrude = startSketchOn('XY') |> startProfileAt([0, 0], %) |> line([-2.4, 5], %) |> line([-0.76], myVarZ, %) |> line([5,5], %) |> close(%) |> extrude(4, %) show(theExtrude)` await expect(exe(code)).rejects.toEqual( new KCLError( 'undefined_value', 'memory item key `myVarZ` is not defined', [[129, 135]] ) ) }) }) // helpers async function exe( code: string, programMemory: ProgramMemory = { root: {}, return: null } ) { const ast = parse(code) const result = await enginelessExecutor(ast, programMemory) return result }