vue3-yuanma/packages/runtime-core/__tests__/scheduler.spec.ts

530 lines
12 KiB
TypeScript

import {
queueJob,
nextTick,
queuePostFlushCb,
invalidateJob,
queuePreFlushCb,
flushPreFlushCbs,
flushPostFlushCbs
} from '../src/scheduler'
describe('scheduler', () => {
it('nextTick', async () => {
const calls: string[] = []
const dummyThen = Promise.resolve().then()
const job1 = () => {
calls.push('job1')
}
const job2 = () => {
calls.push('job2')
}
nextTick(job1)
job2()
expect(calls.length).toBe(1)
await dummyThen
// job1 will be pushed in nextTick
expect(calls.length).toBe(2)
expect(calls).toMatchObject(['job2', 'job1'])
})
describe('queueJob', () => {
it('basic usage', async () => {
const calls: string[] = []
const job1 = () => {
calls.push('job1')
}
const job2 = () => {
calls.push('job2')
}
queueJob(job1)
queueJob(job2)
expect(calls).toEqual([])
await nextTick()
expect(calls).toEqual(['job1', 'job2'])
})
it('should dedupe queued jobs', async () => {
const calls: string[] = []
const job1 = () => {
calls.push('job1')
}
const job2 = () => {
calls.push('job2')
}
queueJob(job1)
queueJob(job2)
queueJob(job1)
queueJob(job2)
expect(calls).toEqual([])
await nextTick()
expect(calls).toEqual(['job1', 'job2'])
})
it('queueJob while flushing', async () => {
const calls: string[] = []
const job1 = () => {
calls.push('job1')
// job2 will be executed after job1 at the same tick
queueJob(job2)
}
const job2 = () => {
calls.push('job2')
}
queueJob(job1)
await nextTick()
expect(calls).toEqual(['job1', 'job2'])
})
})
describe('queuePreFlushCb', () => {
it('basic usage', async () => {
const calls: string[] = []
const cb1 = () => {
calls.push('cb1')
}
const cb2 = () => {
calls.push('cb2')
}
queuePreFlushCb(cb1)
queuePreFlushCb(cb2)
expect(calls).toEqual([])
await nextTick()
expect(calls).toEqual(['cb1', 'cb2'])
})
it('should dedupe queued preFlushCb', async () => {
const calls: string[] = []
const cb1 = () => {
calls.push('cb1')
}
const cb2 = () => {
calls.push('cb2')
}
const cb3 = () => {
calls.push('cb3')
}
queuePreFlushCb(cb1)
queuePreFlushCb(cb2)
queuePreFlushCb(cb1)
queuePreFlushCb(cb2)
queuePreFlushCb(cb3)
expect(calls).toEqual([])
await nextTick()
expect(calls).toEqual(['cb1', 'cb2', 'cb3'])
})
it('chained queuePreFlushCb', async () => {
const calls: string[] = []
const cb1 = () => {
calls.push('cb1')
// cb2 will be executed after cb1 at the same tick
queuePreFlushCb(cb2)
}
const cb2 = () => {
calls.push('cb2')
}
queuePreFlushCb(cb1)
await nextTick()
expect(calls).toEqual(['cb1', 'cb2'])
})
})
describe('queueJob w/ queuePreFlushCb', () => {
it('queueJob inside preFlushCb', async () => {
const calls: string[] = []
const job1 = () => {
calls.push('job1')
}
const cb1 = () => {
// queueJob in postFlushCb
calls.push('cb1')
queueJob(job1)
}
queuePreFlushCb(cb1)
await nextTick()
expect(calls).toEqual(['cb1', 'job1'])
})
it('queueJob & preFlushCb inside preFlushCb', async () => {
const calls: string[] = []
const job1 = () => {
calls.push('job1')
}
const cb1 = () => {
calls.push('cb1')
queueJob(job1)
// cb2 should execute before the job
queuePreFlushCb(cb2)
}
const cb2 = () => {
calls.push('cb2')
}
queuePreFlushCb(cb1)
await nextTick()
expect(calls).toEqual(['cb1', 'cb2', 'job1'])
})
it('preFlushCb inside queueJob', async () => {
const calls: string[] = []
const job1 = () => {
// the only case where a pre-flush cb can be queued inside a job is
// when updating the props of a child component. This is handled
// directly inside `updateComponentPreRender` to avoid non atomic
// cb triggers (#1763)
queuePreFlushCb(cb1)
queuePreFlushCb(cb2)
flushPreFlushCbs(undefined, job1)
calls.push('job1')
}
const cb1 = () => {
calls.push('cb1')
// a cb triggers its parent job, which should be skipped
queueJob(job1)
}
const cb2 = () => {
calls.push('cb2')
}
queueJob(job1)
await nextTick()
expect(calls).toEqual(['cb1', 'cb2', 'job1'])
})
})
describe('queuePostFlushCb', () => {
it('basic usage', async () => {
const calls: string[] = []
const cb1 = () => {
calls.push('cb1')
}
const cb2 = () => {
calls.push('cb2')
}
const cb3 = () => {
calls.push('cb3')
}
queuePostFlushCb([cb1, cb2])
queuePostFlushCb(cb3)
expect(calls).toEqual([])
await nextTick()
expect(calls).toEqual(['cb1', 'cb2', 'cb3'])
})
it('should dedupe queued postFlushCb', async () => {
const calls: string[] = []
const cb1 = () => {
calls.push('cb1')
}
const cb2 = () => {
calls.push('cb2')
}
const cb3 = () => {
calls.push('cb3')
}
queuePostFlushCb([cb1, cb2])
queuePostFlushCb(cb3)
queuePostFlushCb([cb1, cb3])
queuePostFlushCb(cb2)
expect(calls).toEqual([])
await nextTick()
expect(calls).toEqual(['cb1', 'cb2', 'cb3'])
})
it('queuePostFlushCb while flushing', async () => {
const calls: string[] = []
const cb1 = () => {
calls.push('cb1')
// cb2 will be executed after cb1 at the same tick
queuePostFlushCb(cb2)
}
const cb2 = () => {
calls.push('cb2')
}
queuePostFlushCb(cb1)
await nextTick()
expect(calls).toEqual(['cb1', 'cb2'])
})
})
describe('queueJob w/ queuePostFlushCb', () => {
it('queueJob inside postFlushCb', async () => {
const calls: string[] = []
const job1 = () => {
calls.push('job1')
}
const cb1 = () => {
// queueJob in postFlushCb
calls.push('cb1')
queueJob(job1)
}
queuePostFlushCb(cb1)
await nextTick()
expect(calls).toEqual(['cb1', 'job1'])
})
it('queueJob & postFlushCb inside postFlushCb', async () => {
const calls: string[] = []
const job1 = () => {
calls.push('job1')
}
const cb1 = () => {
calls.push('cb1')
queuePostFlushCb(cb2)
// job1 will executed before cb2
// Job has higher priority than postFlushCb
queueJob(job1)
}
const cb2 = () => {
calls.push('cb2')
}
queuePostFlushCb(cb1)
await nextTick()
expect(calls).toEqual(['cb1', 'job1', 'cb2'])
})
it('postFlushCb inside queueJob', async () => {
const calls: string[] = []
const job1 = () => {
calls.push('job1')
// postFlushCb in queueJob
queuePostFlushCb(cb1)
}
const cb1 = () => {
calls.push('cb1')
}
queueJob(job1)
await nextTick()
expect(calls).toEqual(['job1', 'cb1'])
})
it('queueJob & postFlushCb inside queueJob', async () => {
const calls: string[] = []
const job1 = () => {
calls.push('job1')
// cb1 will executed after job2
// Job has higher priority than postFlushCb
queuePostFlushCb(cb1)
queueJob(job2)
}
const job2 = () => {
calls.push('job2')
}
const cb1 = () => {
calls.push('cb1')
}
queueJob(job1)
await nextTick()
expect(calls).toEqual(['job1', 'job2', 'cb1'])
})
it('nested queueJob w/ postFlushCb', async () => {
const calls: string[] = []
const job1 = () => {
calls.push('job1')
queuePostFlushCb(cb1)
queueJob(job2)
}
const job2 = () => {
calls.push('job2')
queuePostFlushCb(cb2)
}
const cb1 = () => {
calls.push('cb1')
}
const cb2 = () => {
calls.push('cb2')
}
queueJob(job1)
await nextTick()
expect(calls).toEqual(['job1', 'job2', 'cb1', 'cb2'])
})
})
test('invalidateJob', async () => {
const calls: string[] = []
const job1 = () => {
calls.push('job1')
invalidateJob(job2)
job2()
}
const job2 = () => {
calls.push('job2')
}
const job3 = () => {
calls.push('job3')
}
const job4 = () => {
calls.push('job4')
}
// queue all jobs
queueJob(job1)
queueJob(job2)
queueJob(job3)
queuePostFlushCb(job4)
expect(calls).toEqual([])
await nextTick()
// job2 should be called only once
expect(calls).toEqual(['job1', 'job2', 'job3', 'job4'])
})
test('sort job based on id', async () => {
const calls: string[] = []
const job1 = () => calls.push('job1')
// job1 has no id
const job2 = () => calls.push('job2')
job2.id = 2
const job3 = () => calls.push('job3')
job3.id = 1
queueJob(job1)
queueJob(job2)
queueJob(job3)
await nextTick()
expect(calls).toEqual(['job3', 'job2', 'job1'])
})
test('sort SchedulerCbs based on id', async () => {
const calls: string[] = []
const cb1 = () => calls.push('cb1')
// cb1 has no id
const cb2 = () => calls.push('cb2')
cb2.id = 2
const cb3 = () => calls.push('cb3')
cb3.id = 1
queuePostFlushCb(cb1)
queuePostFlushCb(cb2)
queuePostFlushCb(cb3)
await nextTick()
expect(calls).toEqual(['cb3', 'cb2', 'cb1'])
})
// #1595
test('avoid duplicate postFlushCb invocation', async () => {
const calls: string[] = []
const cb1 = () => {
calls.push('cb1')
queuePostFlushCb(cb2)
}
const cb2 = () => {
calls.push('cb2')
}
queuePostFlushCb(cb1)
queuePostFlushCb(cb2)
await nextTick()
expect(calls).toEqual(['cb1', 'cb2'])
})
test('nextTick should capture scheduler flush errors', async () => {
const err = new Error('test')
queueJob(() => {
throw err
})
try {
await nextTick()
} catch (e) {
expect(e).toBe(err)
}
expect(
`Unhandled error during execution of scheduler flush`
).toHaveBeenWarned()
// this one should no longer error
await nextTick()
})
test('should prevent self-triggering jobs by default', async () => {
let count = 0
const job = () => {
if (count < 3) {
count++
queueJob(job)
}
}
queueJob(job)
await nextTick()
// only runs once - a job cannot queue itself
expect(count).toBe(1)
})
test('should allow explicitly marked jobs to trigger itself', async () => {
// normal job
let count = 0
const job = () => {
if (count < 3) {
count++
queueJob(job)
}
}
job.allowRecurse = true
queueJob(job)
await nextTick()
expect(count).toBe(3)
// post cb
const cb = () => {
if (count < 5) {
count++
queuePostFlushCb(cb)
}
}
cb.allowRecurse = true
queuePostFlushCb(cb)
await nextTick()
expect(count).toBe(5)
})
test('should prevent duplicate queue', async () => {
let count = 0
const job = () => {
count++
}
job.cb = true
queueJob(job)
queueJob(job)
await nextTick()
expect(count).toBe(1)
})
// #1947 flushPostFlushCbs should handle nested calls
// e.g. app.mount inside app.mount
test('flushPostFlushCbs', async () => {
let count = 0
const queueAndFlush = (hook: Function) => {
queuePostFlushCb(hook)
flushPostFlushCbs()
}
queueAndFlush(() => {
queueAndFlush(() => {
count++
})
})
await nextTick()
expect(count).toBe(1)
})
})