package collection import ( "sort" "sync" "sync/atomic" "testing" "time" "git.i2edu.net/i2/go-zero/core/lang" "git.i2edu.net/i2/go-zero/core/stringx" "git.i2edu.net/i2/go-zero/core/syncx" "git.i2edu.net/i2/go-zero/core/timex" "github.com/stretchr/testify/assert" ) const ( testStep = time.Minute waitTime = time.Second ) func TestNewTimingWheel(t *testing.T) { _, err := NewTimingWheel(0, 10, func(key, value interface{}) {}) assert.NotNil(t, err) } func TestTimingWheel_Drain(t *testing.T) { ticker := timex.NewFakeTicker() tw, _ := newTimingWheelWithClock(testStep, 10, func(k, v interface{}) { }, ticker) defer tw.Stop() tw.SetTimer("first", 3, testStep*4) tw.SetTimer("second", 5, testStep*7) tw.SetTimer("third", 7, testStep*7) var keys []string var vals []int var lock sync.Mutex var wg sync.WaitGroup wg.Add(3) tw.Drain(func(key, value interface{}) { lock.Lock() defer lock.Unlock() keys = append(keys, key.(string)) vals = append(vals, value.(int)) wg.Done() }) wg.Wait() sort.Strings(keys) sort.Ints(vals) assert.Equal(t, 3, len(keys)) assert.EqualValues(t, []string{"first", "second", "third"}, keys) assert.EqualValues(t, []int{3, 5, 7}, vals) var count int tw.Drain(func(key, value interface{}) { count++ }) time.Sleep(time.Millisecond * 100) assert.Equal(t, 0, count) } func TestTimingWheel_SetTimerSoon(t *testing.T) { run := syncx.NewAtomicBool() ticker := timex.NewFakeTicker() tw, _ := newTimingWheelWithClock(testStep, 10, func(k, v interface{}) { assert.True(t, run.CompareAndSwap(false, true)) assert.Equal(t, "any", k) assert.Equal(t, 3, v.(int)) ticker.Done() }, ticker) defer tw.Stop() tw.SetTimer("any", 3, testStep>>1) ticker.Tick() assert.Nil(t, ticker.Wait(waitTime)) assert.True(t, run.True()) } func TestTimingWheel_SetTimerTwice(t *testing.T) { run := syncx.NewAtomicBool() ticker := timex.NewFakeTicker() tw, _ := newTimingWheelWithClock(testStep, 10, func(k, v interface{}) { assert.True(t, run.CompareAndSwap(false, true)) assert.Equal(t, "any", k) assert.Equal(t, 5, v.(int)) ticker.Done() }, ticker) defer tw.Stop() tw.SetTimer("any", 3, testStep*4) tw.SetTimer("any", 5, testStep*7) for i := 0; i < 8; i++ { ticker.Tick() } assert.Nil(t, ticker.Wait(waitTime)) assert.True(t, run.True()) } func TestTimingWheel_SetTimerWrongDelay(t *testing.T) { ticker := timex.NewFakeTicker() tw, _ := newTimingWheelWithClock(testStep, 10, func(k, v interface{}) {}, ticker) defer tw.Stop() assert.NotPanics(t, func() { tw.SetTimer("any", 3, -testStep) }) } func TestTimingWheel_MoveTimer(t *testing.T) { run := syncx.NewAtomicBool() ticker := timex.NewFakeTicker() tw, _ := newTimingWheelWithClock(testStep, 3, func(k, v interface{}) { assert.True(t, run.CompareAndSwap(false, true)) assert.Equal(t, "any", k) assert.Equal(t, 3, v.(int)) ticker.Done() }, ticker) defer tw.Stop() tw.SetTimer("any", 3, testStep*4) tw.MoveTimer("any", testStep*7) tw.MoveTimer("any", -testStep) tw.MoveTimer("none", testStep) for i := 0; i < 5; i++ { ticker.Tick() } assert.False(t, run.True()) for i := 0; i < 3; i++ { ticker.Tick() } assert.Nil(t, ticker.Wait(waitTime)) assert.True(t, run.True()) } func TestTimingWheel_MoveTimerSoon(t *testing.T) { run := syncx.NewAtomicBool() ticker := timex.NewFakeTicker() tw, _ := newTimingWheelWithClock(testStep, 3, func(k, v interface{}) { assert.True(t, run.CompareAndSwap(false, true)) assert.Equal(t, "any", k) assert.Equal(t, 3, v.(int)) ticker.Done() }, ticker) defer tw.Stop() tw.SetTimer("any", 3, testStep*4) tw.MoveTimer("any", testStep>>1) assert.Nil(t, ticker.Wait(waitTime)) assert.True(t, run.True()) } func TestTimingWheel_MoveTimerEarlier(t *testing.T) { run := syncx.NewAtomicBool() ticker := timex.NewFakeTicker() tw, _ := newTimingWheelWithClock(testStep, 10, func(k, v interface{}) { assert.True(t, run.CompareAndSwap(false, true)) assert.Equal(t, "any", k) assert.Equal(t, 3, v.(int)) ticker.Done() }, ticker) defer tw.Stop() tw.SetTimer("any", 3, testStep*4) tw.MoveTimer("any", testStep*2) for i := 0; i < 3; i++ { ticker.Tick() } assert.Nil(t, ticker.Wait(waitTime)) assert.True(t, run.True()) } func TestTimingWheel_RemoveTimer(t *testing.T) { ticker := timex.NewFakeTicker() tw, _ := newTimingWheelWithClock(testStep, 10, func(k, v interface{}) {}, ticker) tw.SetTimer("any", 3, testStep) assert.NotPanics(t, func() { tw.RemoveTimer("any") tw.RemoveTimer("none") tw.RemoveTimer(nil) }) for i := 0; i < 5; i++ { ticker.Tick() } tw.Stop() } func TestTimingWheel_SetTimer(t *testing.T) { tests := []struct { slots int setAt time.Duration }{ { slots: 5, setAt: 5, }, { slots: 5, setAt: 7, }, { slots: 5, setAt: 10, }, { slots: 5, setAt: 12, }, { slots: 5, setAt: 7, }, { slots: 5, setAt: 10, }, { slots: 5, setAt: 12, }, } for _, test := range tests { test := test t.Run(stringx.RandId(), func(t *testing.T) { t.Parallel() var count int32 ticker := timex.NewFakeTicker() tick := func() { atomic.AddInt32(&count, 1) ticker.Tick() time.Sleep(time.Millisecond) } var actual int32 done := make(chan lang.PlaceholderType) tw, err := newTimingWheelWithClock(testStep, test.slots, func(key, value interface{}) { assert.Equal(t, 1, key.(int)) assert.Equal(t, 2, value.(int)) actual = atomic.LoadInt32(&count) close(done) }, ticker) assert.Nil(t, err) defer tw.Stop() tw.SetTimer(1, 2, testStep*test.setAt) for { select { case <-done: assert.Equal(t, int32(test.setAt), actual) return default: tick() } } }) } } func TestTimingWheel_SetAndMoveThenStart(t *testing.T) { tests := []struct { slots int setAt time.Duration moveAt time.Duration }{ { slots: 5, setAt: 3, moveAt: 5, }, { slots: 5, setAt: 3, moveAt: 7, }, { slots: 5, setAt: 3, moveAt: 10, }, { slots: 5, setAt: 3, moveAt: 12, }, { slots: 5, setAt: 5, moveAt: 7, }, { slots: 5, setAt: 5, moveAt: 10, }, { slots: 5, setAt: 5, moveAt: 12, }, } for _, test := range tests { test := test t.Run(stringx.RandId(), func(t *testing.T) { t.Parallel() var count int32 ticker := timex.NewFakeTicker() tick := func() { atomic.AddInt32(&count, 1) ticker.Tick() time.Sleep(time.Millisecond * 10) } var actual int32 done := make(chan lang.PlaceholderType) tw, err := newTimingWheelWithClock(testStep, test.slots, func(key, value interface{}) { actual = atomic.LoadInt32(&count) close(done) }, ticker) assert.Nil(t, err) defer tw.Stop() tw.SetTimer(1, 2, testStep*test.setAt) tw.MoveTimer(1, testStep*test.moveAt) for { select { case <-done: assert.Equal(t, int32(test.moveAt), actual) return default: tick() } } }) } } func TestTimingWheel_SetAndMoveTwice(t *testing.T) { tests := []struct { slots int setAt time.Duration moveAt time.Duration moveAgainAt time.Duration }{ { slots: 5, setAt: 3, moveAt: 5, moveAgainAt: 10, }, { slots: 5, setAt: 3, moveAt: 7, moveAgainAt: 12, }, { slots: 5, setAt: 3, moveAt: 10, moveAgainAt: 15, }, { slots: 5, setAt: 3, moveAt: 12, moveAgainAt: 17, }, { slots: 5, setAt: 5, moveAt: 7, moveAgainAt: 12, }, { slots: 5, setAt: 5, moveAt: 10, moveAgainAt: 17, }, { slots: 5, setAt: 5, moveAt: 12, moveAgainAt: 17, }, } for _, test := range tests { test := test t.Run(stringx.RandId(), func(t *testing.T) { t.Parallel() var count int32 ticker := timex.NewFakeTicker() tick := func() { atomic.AddInt32(&count, 1) ticker.Tick() time.Sleep(time.Millisecond * 10) } var actual int32 done := make(chan lang.PlaceholderType) tw, err := newTimingWheelWithClock(testStep, test.slots, func(key, value interface{}) { actual = atomic.LoadInt32(&count) close(done) }, ticker) assert.Nil(t, err) defer tw.Stop() tw.SetTimer(1, 2, testStep*test.setAt) tw.MoveTimer(1, testStep*test.moveAt) tw.MoveTimer(1, testStep*test.moveAgainAt) for { select { case <-done: assert.Equal(t, int32(test.moveAgainAt), actual) return default: tick() } } }) } } func TestTimingWheel_ElapsedAndSet(t *testing.T) { tests := []struct { slots int elapsed time.Duration setAt time.Duration }{ { slots: 5, elapsed: 3, setAt: 5, }, { slots: 5, elapsed: 3, setAt: 7, }, { slots: 5, elapsed: 3, setAt: 10, }, { slots: 5, elapsed: 3, setAt: 12, }, { slots: 5, elapsed: 5, setAt: 7, }, { slots: 5, elapsed: 5, setAt: 10, }, { slots: 5, elapsed: 5, setAt: 12, }, } for _, test := range tests { test := test t.Run(stringx.RandId(), func(t *testing.T) { t.Parallel() var count int32 ticker := timex.NewFakeTicker() tick := func() { atomic.AddInt32(&count, 1) ticker.Tick() time.Sleep(time.Millisecond * 10) } var actual int32 done := make(chan lang.PlaceholderType) tw, err := newTimingWheelWithClock(testStep, test.slots, func(key, value interface{}) { actual = atomic.LoadInt32(&count) close(done) }, ticker) assert.Nil(t, err) defer tw.Stop() for i := 0; i < int(test.elapsed); i++ { tick() } tw.SetTimer(1, 2, testStep*test.setAt) for { select { case <-done: assert.Equal(t, int32(test.elapsed+test.setAt), actual) return default: tick() } } }) } } func TestTimingWheel_ElapsedAndSetThenMove(t *testing.T) { tests := []struct { slots int elapsed time.Duration setAt time.Duration moveAt time.Duration }{ { slots: 5, elapsed: 3, setAt: 5, moveAt: 10, }, { slots: 5, elapsed: 3, setAt: 7, moveAt: 12, }, { slots: 5, elapsed: 3, setAt: 10, moveAt: 15, }, { slots: 5, elapsed: 3, setAt: 12, moveAt: 16, }, { slots: 5, elapsed: 5, setAt: 7, moveAt: 12, }, { slots: 5, elapsed: 5, setAt: 10, moveAt: 15, }, { slots: 5, elapsed: 5, setAt: 12, moveAt: 17, }, } for _, test := range tests { test := test t.Run(stringx.RandId(), func(t *testing.T) { t.Parallel() var count int32 ticker := timex.NewFakeTicker() tick := func() { atomic.AddInt32(&count, 1) ticker.Tick() time.Sleep(time.Millisecond * 10) } var actual int32 done := make(chan lang.PlaceholderType) tw, err := newTimingWheelWithClock(testStep, test.slots, func(key, value interface{}) { actual = atomic.LoadInt32(&count) close(done) }, ticker) assert.Nil(t, err) defer tw.Stop() for i := 0; i < int(test.elapsed); i++ { tick() } tw.SetTimer(1, 2, testStep*test.setAt) tw.MoveTimer(1, testStep*test.moveAt) for { select { case <-done: assert.Equal(t, int32(test.elapsed+test.moveAt), actual) return default: tick() } } }) } } func TestMoveAndRemoveTask(t *testing.T) { ticker := timex.NewFakeTicker() tick := func(v int) { for i := 0; i < v; i++ { ticker.Tick() } } var keys []int tw, _ := newTimingWheelWithClock(testStep, 10, func(k, v interface{}) { assert.Equal(t, "any", k) assert.Equal(t, 3, v.(int)) keys = append(keys, v.(int)) ticker.Done() }, ticker) defer tw.Stop() tw.SetTimer("any", 3, testStep*8) tick(6) tw.MoveTimer("any", testStep*7) tick(3) tw.RemoveTimer("any") tick(30) time.Sleep(time.Millisecond) assert.Equal(t, 0, len(keys)) } func BenchmarkTimingWheel(b *testing.B) { b.ReportAllocs() tw, _ := NewTimingWheel(time.Second, 100, func(k, v interface{}) {}) for i := 0; i < b.N; i++ { tw.SetTimer(i, i, time.Second) tw.SetTimer(b.N+i, b.N+i, time.Second) tw.MoveTimer(i, time.Second*time.Duration(i)) tw.RemoveTimer(i) } }