vue3-yuanma/packages/reactivity/__tests__/reactive.spec.ts

216 lines
6.1 KiB
TypeScript

import { ref, isRef } from '../src/ref'
import { reactive, isReactive, toRaw, markNonReactive } from '../src/reactive'
import { mockWarn } from '@vue/shared'
import { computed } from '../src/computed'
describe('reactivity/reactive', () => {
mockWarn()
test('Object', () => {
const original = { foo: 1 }
const observed = reactive(original)
expect(observed).not.toBe(original)
expect(isReactive(observed)).toBe(true)
expect(isReactive(original)).toBe(false)
// get
expect(observed.foo).toBe(1)
// has
expect('foo' in observed).toBe(true)
// ownKeys
expect(Object.keys(observed)).toEqual(['foo'])
})
test('Array', () => {
const original = [{ foo: 1 }]
const observed = reactive(original)
expect(observed).not.toBe(original)
expect(isReactive(observed)).toBe(true)
expect(isReactive(original)).toBe(false)
expect(isReactive(observed[0])).toBe(true)
// get
expect(observed[0].foo).toBe(1)
// has
expect(0 in observed).toBe(true)
// ownKeys
expect(Object.keys(observed)).toEqual(['0'])
})
test('cloned reactive Array should point to observed values', () => {
const original = [{ foo: 1 }]
const observed = reactive(original)
const clone = observed.slice()
expect(isReactive(clone[0])).toBe(true)
expect(clone[0]).not.toBe(original[0])
expect(clone[0]).toBe(observed[0])
})
test('Array identity methods should work with raw values', () => {
const raw = {}
const arr = reactive([{}, {}])
arr.push(raw)
expect(arr.indexOf(raw)).toBe(2)
expect(arr.indexOf(raw, 3)).toBe(-1)
expect(arr.includes(raw)).toBe(true)
expect(arr.includes(raw, 3)).toBe(false)
expect(arr.lastIndexOf(raw)).toBe(2)
expect(arr.lastIndexOf(raw, 1)).toBe(-1)
// should work also for the observed version
const observed = arr[2]
expect(arr.indexOf(observed)).toBe(2)
expect(arr.indexOf(observed, 3)).toBe(-1)
expect(arr.includes(observed)).toBe(true)
expect(arr.includes(observed, 3)).toBe(false)
expect(arr.lastIndexOf(observed)).toBe(2)
expect(arr.lastIndexOf(observed, 1)).toBe(-1)
})
test('nested reactives', () => {
const original = {
nested: {
foo: 1
},
array: [{ bar: 2 }]
}
const observed = reactive(original)
expect(isReactive(observed.nested)).toBe(true)
expect(isReactive(observed.array)).toBe(true)
expect(isReactive(observed.array[0])).toBe(true)
})
test('observed value should proxy mutations to original (Object)', () => {
const original: any = { foo: 1 }
const observed = reactive(original)
// set
observed.bar = 1
expect(observed.bar).toBe(1)
expect(original.bar).toBe(1)
// delete
delete observed.foo
expect('foo' in observed).toBe(false)
expect('foo' in original).toBe(false)
})
test('observed value should proxy mutations to original (Array)', () => {
const original: any[] = [{ foo: 1 }, { bar: 2 }]
const observed = reactive(original)
// set
const value = { baz: 3 }
const reactiveValue = reactive(value)
observed[0] = value
expect(observed[0]).toBe(reactiveValue)
expect(original[0]).toBe(value)
// delete
delete observed[0]
expect(observed[0]).toBeUndefined()
expect(original[0]).toBeUndefined()
// mutating methods
observed.push(value)
expect(observed[2]).toBe(reactiveValue)
expect(original[2]).toBe(value)
})
test('setting a property with an unobserved value should wrap with reactive', () => {
const observed = reactive<{ foo?: object }>({})
const raw = {}
observed.foo = raw
expect(observed.foo).not.toBe(raw)
expect(isReactive(observed.foo)).toBe(true)
})
test('observing already observed value should return same Proxy', () => {
const original = { foo: 1 }
const observed = reactive(original)
const observed2 = reactive(observed)
expect(observed2).toBe(observed)
})
test('observing the same value multiple times should return same Proxy', () => {
const original = { foo: 1 }
const observed = reactive(original)
const observed2 = reactive(original)
expect(observed2).toBe(observed)
})
test('should not pollute original object with Proxies', () => {
const original: any = { foo: 1 }
const original2 = { bar: 2 }
const observed = reactive(original)
const observed2 = reactive(original2)
observed.bar = observed2
expect(observed.bar).toBe(observed2)
expect(original.bar).toBe(original2)
})
test('unwrap', () => {
const original = { foo: 1 }
const observed = reactive(original)
expect(toRaw(observed)).toBe(original)
expect(toRaw(original)).toBe(original)
})
test('should not unwrap Ref<T>', () => {
const observedNumberRef = reactive(ref(1))
const observedObjectRef = reactive(ref({ foo: 1 }))
expect(isRef(observedNumberRef)).toBe(true)
expect(isRef(observedObjectRef)).toBe(true)
})
test('should unwrap computed refs', () => {
// readonly
const a = computed(() => 1)
// writable
const b = computed({
get: () => 1,
set: () => {}
})
const obj = reactive({ a, b })
// check type
obj.a + 1
obj.b + 1
expect(typeof obj.a).toBe(`number`)
expect(typeof obj.b).toBe(`number`)
})
test('non-observable values', () => {
const assertValue = (value: any) => {
reactive(value)
expect(
`value cannot be made reactive: ${String(value)}`
).toHaveBeenWarnedLast()
}
// number
assertValue(1)
// string
assertValue('foo')
// boolean
assertValue(false)
// null
assertValue(null)
// undefined
assertValue(undefined)
// symbol
const s = Symbol()
assertValue(s)
// built-ins should work and return same value
const p = Promise.resolve()
expect(reactive(p)).toBe(p)
const r = new RegExp('')
expect(reactive(r)).toBe(r)
const d = new Date()
expect(reactive(d)).toBe(d)
})
test('markNonReactive', () => {
const obj = reactive({
foo: { a: 1 },
bar: markNonReactive({ b: 2 })
})
expect(isReactive(obj.foo)).toBe(true)
expect(isReactive(obj.bar)).toBe(false)
})
})