// MIT License // Copyright (c) 2018 Andy Pan // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in all // copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE // SOFTWARE. package ants_test import ( "runtime" "sync" "sync/atomic" "testing" "time" "github.com/panjf2000/ants" ) const ( _ = 1 << (10 * iota) KiB // 1024 MiB // 1048576 GiB // 1073741824 TiB // 1099511627776 (超过了int32的范围) PiB // 1125899906842624 EiB // 1152921504606846976 ZiB // 1180591620717411303424 (超过了int64的范围) YiB // 1208925819614629174706176 ) const ( Param = 100 AntsSize = 1000 TestSize = 10000 n = 100000 ) var curMem uint64 // TestAntsPoolWaitToGetWorker is used to test waiting to get worker. func TestAntsPoolWaitToGetWorker(t *testing.T) { var wg sync.WaitGroup p, _ := ants.NewPool(AntsSize) defer p.Release() for i := 0; i < n; i++ { wg.Add(1) p.Submit(func() { demoPoolFunc(Param) wg.Done() }) } wg.Wait() t.Logf("pool, running workers number:%d", p.Running()) mem := runtime.MemStats{} runtime.ReadMemStats(&mem) curMem = mem.TotalAlloc/MiB - curMem t.Logf("memory usage:%d MB", curMem) } func TestAntsPoolWaitToGetWorkerPreMalloc(t *testing.T) { var wg sync.WaitGroup p, _ := ants.NewPoolPreMalloc(AntsSize) defer p.Release() for i := 0; i < n; i++ { wg.Add(1) p.Submit(func() { demoPoolFunc(Param) wg.Done() }) } wg.Wait() t.Logf("pool, running workers number:%d", p.Running()) mem := runtime.MemStats{} runtime.ReadMemStats(&mem) curMem = mem.TotalAlloc/MiB - curMem t.Logf("memory usage:%d MB", curMem) } // TestAntsPoolWithFuncWaitToGetWorker is used to test waiting to get worker. func TestAntsPoolWithFuncWaitToGetWorker(t *testing.T) { var wg sync.WaitGroup p, _ := ants.NewPoolWithFunc(AntsSize, func(i interface{}) { demoPoolFunc(i) wg.Done() }) defer p.Release() for i := 0; i < n; i++ { wg.Add(1) p.Invoke(Param) } wg.Wait() t.Logf("pool with func, running workers number:%d", p.Running()) mem := runtime.MemStats{} runtime.ReadMemStats(&mem) curMem = mem.TotalAlloc/MiB - curMem t.Logf("memory usage:%d MB", curMem) } func TestAntsPoolWithFuncWaitToGetWorkerPreMalloc(t *testing.T) { var wg sync.WaitGroup p, _ := ants.NewPoolWithFuncPreMalloc(AntsSize, func(i interface{}) { demoPoolFunc(i) wg.Done() }) defer p.Release() for i := 0; i < n; i++ { wg.Add(1) p.Invoke(Param) } wg.Wait() t.Logf("pool with func, running workers number:%d", p.Running()) mem := runtime.MemStats{} runtime.ReadMemStats(&mem) curMem = mem.TotalAlloc/MiB - curMem t.Logf("memory usage:%d MB", curMem) } // TestAntsPoolGetWorkerFromCache is used to test getting worker from sync.Pool. func TestAntsPoolGetWorkerFromCache(t *testing.T) { p, _ := ants.NewPool(TestSize) defer p.Release() for i := 0; i < AntsSize; i++ { p.Submit(demoFunc) } time.Sleep(2 * ants.DEFAULT_CLEAN_INTERVAL_TIME * time.Second) p.Submit(demoFunc) t.Logf("pool, running workers number:%d", p.Running()) mem := runtime.MemStats{} runtime.ReadMemStats(&mem) curMem = mem.TotalAlloc/MiB - curMem t.Logf("memory usage:%d MB", curMem) } // TestAntsPoolWithFuncGetWorkerFromCache is used to test getting worker from sync.Pool. func TestAntsPoolWithFuncGetWorkerFromCache(t *testing.T) { dur := 10 p, _ := ants.NewPoolWithFunc(TestSize, demoPoolFunc) defer p.Release() for i := 0; i < AntsSize; i++ { p.Invoke(dur) } time.Sleep(2 * ants.DEFAULT_CLEAN_INTERVAL_TIME * time.Second) p.Invoke(dur) t.Logf("pool with func, running workers number:%d", p.Running()) mem := runtime.MemStats{} runtime.ReadMemStats(&mem) curMem = mem.TotalAlloc/MiB - curMem t.Logf("memory usage:%d MB", curMem) } func TestAntsPoolWithFuncGetWorkerFromCachePreMalloc(t *testing.T) { dur := 10 p, _ := ants.NewPoolWithFuncPreMalloc(TestSize, demoPoolFunc) defer p.Release() for i := 0; i < AntsSize; i++ { p.Invoke(dur) } time.Sleep(2 * ants.DEFAULT_CLEAN_INTERVAL_TIME * time.Second) p.Invoke(dur) t.Logf("pool with func, running workers number:%d", p.Running()) mem := runtime.MemStats{} runtime.ReadMemStats(&mem) curMem = mem.TotalAlloc/MiB - curMem t.Logf("memory usage:%d MB", curMem) } //------------------------------------------------------------------------------------------- // Contrast between goroutines without a pool and goroutines with ants pool. //------------------------------------------------------------------------------------------- func TestNoPool(t *testing.T) { var wg sync.WaitGroup for i := 0; i < n; i++ { wg.Add(1) go func() { demoFunc() wg.Done() }() } wg.Wait() mem := runtime.MemStats{} runtime.ReadMemStats(&mem) curMem = mem.TotalAlloc/MiB - curMem t.Logf("memory usage:%d MB", curMem) } func TestAntsPool(t *testing.T) { defer ants.Release() var wg sync.WaitGroup for i := 0; i < n; i++ { wg.Add(1) ants.Submit(func() { demoFunc() wg.Done() }) } wg.Wait() t.Logf("pool, capacity:%d", ants.Cap()) t.Logf("pool, running workers number:%d", ants.Running()) t.Logf("pool, free workers number:%d", ants.Free()) mem := runtime.MemStats{} runtime.ReadMemStats(&mem) curMem = mem.TotalAlloc/MiB - curMem t.Logf("memory usage:%d MB", curMem) } //------------------------------------------------------------------------------------------- //------------------------------------------------------------------------------------------- func TestPanicHandler(t *testing.T) { p0, err := ants.NewPool(10) if err != nil { t.Fatalf("create new pool failed: %s", err.Error()) } defer p0.Release() var panicCounter int64 var wg sync.WaitGroup p0.PanicHandler = func(p interface{}) { defer wg.Done() atomic.AddInt64(&panicCounter, 1) t.Logf("catch panic with PanicHandler: %v", p) } wg.Add(1) p0.Submit(func() { panic("Oops!") }) wg.Wait() c := atomic.LoadInt64(&panicCounter) if c != 1 { t.Errorf("panic handler didn't work, panicCounter: %d", c) } if p0.Running() != 0 { t.Errorf("pool should be empty after panic") } p1, err := ants.NewPoolWithFunc(10, func(p interface{}) { panic(p) }) if err != nil { t.Fatalf("create new pool with func failed: %s", err.Error()) } defer p1.Release() p1.PanicHandler = func(p interface{}) { defer wg.Done() atomic.AddInt64(&panicCounter, 1) } wg.Add(1) p1.Invoke("Oops!") wg.Wait() c = atomic.LoadInt64(&panicCounter) if c != 2 { t.Errorf("panic handler didn't work, panicCounter: %d", c) } if p1.Running() != 0 { t.Errorf("pool should be empty after panic") } } func TestPanicHandlerPreMalloc(t *testing.T) { p0, err := ants.NewPoolPreMalloc(10) if err != nil { t.Fatalf("create new pool failed: %s", err.Error()) } defer p0.Release() var panicCounter int64 var wg sync.WaitGroup p0.PanicHandler = func(p interface{}) { defer wg.Done() atomic.AddInt64(&panicCounter, 1) t.Logf("catch panic with PanicHandler: %v", p) } wg.Add(1) p0.Submit(func() { panic("Oops!") }) wg.Wait() c := atomic.LoadInt64(&panicCounter) if c != 1 { t.Errorf("panic handler didn't work, panicCounter: %d", c) } if p0.Running() != 0 { t.Errorf("pool should be empty after panic") } p1, err := ants.NewPoolWithFunc(10, func(p interface{}) { panic(p) }) if err != nil { t.Fatalf("create new pool with func failed: %s", err.Error()) } defer p1.Release() p1.PanicHandler = func(p interface{}) { defer wg.Done() atomic.AddInt64(&panicCounter, 1) } wg.Add(1) p1.Invoke("Oops!") wg.Wait() c = atomic.LoadInt64(&panicCounter) if c != 2 { t.Errorf("panic handler didn't work, panicCounter: %d", c) } if p1.Running() != 0 { t.Errorf("pool should be empty after panic") } } func TestPoolPanicWithoutHandler(t *testing.T) { p0, err := ants.NewPool(10) if err != nil { t.Fatalf("create new pool failed: %s", err.Error()) } defer p0.Release() p0.Submit(func() { panic("Oops!") }) p1, err := ants.NewPoolWithFunc(10, func(p interface{}) { panic(p) }) if err != nil { t.Fatalf("create new pool with func failed: %s", err.Error()) } defer p1.Release() p1.Invoke("Oops!") } func TestPoolPanicWithoutHandlerPreMalloc(t *testing.T) { p0, err := ants.NewPoolPreMalloc(10) if err != nil { t.Fatalf("create new pool failed: %s", err.Error()) } defer p0.Release() p0.Submit(func() { panic("Oops!") }) p1, err := ants.NewPoolWithFunc(10, func(p interface{}) { panic(p) }) if err != nil { t.Fatalf("create new pool with func failed: %s", err.Error()) } defer p1.Release() p1.Invoke("Oops!") } func TestPurge(t *testing.T) { p, err := ants.NewPool(10) defer p.Release() if err != nil { t.Fatalf("create TimingPool failed: %s", err.Error()) } p.Submit(demoFunc) time.Sleep(3 * ants.DEFAULT_CLEAN_INTERVAL_TIME * time.Second) if p.Running() != 0 { t.Error("all p should be purged") } p1, err := ants.NewPoolWithFunc(10, demoPoolFunc) defer p1.Release() if err != nil { t.Fatalf("create TimingPoolWithFunc failed: %s", err.Error()) } p1.Invoke(1) time.Sleep(3 * ants.DEFAULT_CLEAN_INTERVAL_TIME * time.Second) if p.Running() != 0 { t.Error("all p should be purged") } } func TestPurgePreMalloc(t *testing.T) { p, err := ants.NewPoolPreMalloc(10) defer p.Release() if err != nil { t.Fatalf("create TimingPool failed: %s", err.Error()) } p.Submit(demoFunc) time.Sleep(3 * ants.DEFAULT_CLEAN_INTERVAL_TIME * time.Second) if p.Running() != 0 { t.Error("all p should be purged") } p1, err := ants.NewPoolWithFunc(10, demoPoolFunc) defer p1.Release() if err != nil { t.Fatalf("create TimingPoolWithFunc failed: %s", err.Error()) } p1.Invoke(1) time.Sleep(3 * ants.DEFAULT_CLEAN_INTERVAL_TIME * time.Second) if p.Running() != 0 { t.Error("all p should be purged") } } func TestRestCodeCoverage(t *testing.T) { _, err := ants.NewUltimatePool(-1, -1, false) t.Log(err) _, err = ants.NewUltimatePool(1, -1, false) t.Log(err) _, err = ants.NewUltimatePoolWithFunc(-1, -1, demoPoolFunc, false) t.Log(err) _, err = ants.NewUltimatePoolWithFunc(1, -1, demoPoolFunc, false) t.Log(err) p0, _ := ants.NewPool(TestSize) defer p0.Submit(demoFunc) defer p0.Release() for i := 0; i < n; i++ { p0.Submit(demoFunc) } t.Logf("pool, capacity:%d", p0.Cap()) t.Logf("pool, running workers number:%d", p0.Running()) t.Logf("pool, free workers number:%d", p0.Free()) p0.Tune(TestSize) p0.Tune(TestSize / 10) t.Logf("pool, after tuning capacity, capacity:%d, running:%d", p0.Cap(), p0.Running()) pprem, _ := ants.NewPoolPreMalloc(TestSize) defer pprem.Submit(demoFunc) defer pprem.Release() for i := 0; i < n; i++ { pprem.Submit(demoFunc) } t.Logf("pool with pre-malloc, capacity:%d", pprem.Cap()) t.Logf("pool with pre-malloc, running workers number:%d", pprem.Running()) t.Logf("pool with pre-malloc, free workers number:%d", pprem.Free()) pprem.Tune(TestSize) pprem.Tune(TestSize / 10) t.Logf("pool with pre-malloc, after tuning capacity, capacity:%d, running:%d", p0.Cap(), p0.Running()) p, _ := ants.NewPoolWithFunc(TestSize, demoPoolFunc) defer p.Invoke(Param) defer p.Release() for i := 0; i < n; i++ { p.Invoke(Param) } time.Sleep(ants.DEFAULT_CLEAN_INTERVAL_TIME * time.Second) t.Logf("pool with func, capacity:%d", p.Cap()) t.Logf("pool with func, running workers number:%d", p.Running()) t.Logf("pool with func, free workers number:%d", p.Free()) p.Tune(TestSize) p.Tune(TestSize / 10) t.Logf("pool with func, after tuning capacity, capacity:%d, running:%d", p.Cap(), p.Running()) ppremWithFunc, _ := ants.NewPoolWithFuncPreMalloc(TestSize, demoPoolFunc) defer ppremWithFunc.Invoke(Param) defer ppremWithFunc.Release() for i := 0; i < n; i++ { ppremWithFunc.Invoke(Param) } time.Sleep(ants.DEFAULT_CLEAN_INTERVAL_TIME * time.Second) t.Logf("pool with func, capacity:%d", ppremWithFunc.Cap()) t.Logf("pool with func, running workers number:%d", ppremWithFunc.Running()) t.Logf("pool with func, free workers number:%d", ppremWithFunc.Free()) ppremWithFunc.Tune(TestSize) ppremWithFunc.Tune(TestSize / 10) t.Logf("pool with func, after tuning capacity, capacity:%d, running:%d", p.Cap(), p.Running()) }