// Copyright 2018 gf Author(https://gitee.com/johng/gf). All Rights Reserved. // // This Source Code Form is subject to the terms of the MIT License. // If a copy of the MIT was not distributed with this file, // You can obtain one at https://gitee.com/johng/gf. // Package functions package gtimer_test import ( "gitee.com/johng/gf/g/container/garray" "gitee.com/johng/gf/g/os/gtimer" "gitee.com/johng/gf/g/test/gtest" "testing" "time" ) func TestSetTimeout(t *testing.T) { gtest.Case(t, func() { array := garray.New(0, 0) gtimer.SetTimeout(200*time.Millisecond, func() { array.Append(1) }) time.Sleep(1000*time.Millisecond) gtest.Assert(array.Len(), 1) }) } func TestSetInterval(t *testing.T) { gtest.Case(t, func() { array := garray.New(0, 0) gtimer.SetInterval(200*time.Millisecond, func() { array.Append(1) }) time.Sleep(1100*time.Millisecond) gtest.Assert(array.Len(), 5) }) } func TestAddEntry(t *testing.T) { gtest.Case(t, func() { array := garray.New(0, 0) gtimer.AddEntry(200*time.Millisecond, func() { array.Append(1) }, false, 2, gtimer.STATUS_READY) time.Sleep(1100*time.Millisecond) gtest.Assert(array.Len(), 2) }) } func TestAddSingleton(t *testing.T) { gtest.Case(t, func() { array := garray.New(0, 0) gtimer.AddSingleton(200*time.Millisecond, func() { array.Append(1) time.Sleep(10000*time.Millisecond) }) time.Sleep(1100*time.Millisecond) gtest.Assert(array.Len(), 1) }) } func TestAddTimes(t *testing.T) { gtest.Case(t, func() { array := garray.New(0, 0) gtimer.AddTimes(200*time.Millisecond, 2, func() { array.Append(1) }) time.Sleep(1000*time.Millisecond) gtest.Assert(array.Len(), 2) }) } func TestDelayAdd(t *testing.T) { gtest.Case(t, func() { array := garray.New(0, 0) gtimer.DelayAdd(200*time.Millisecond, 200*time.Millisecond, func() { array.Append(1) }) time.Sleep(300*time.Millisecond) gtest.Assert(array.Len(), 0) time.Sleep(200*time.Millisecond) gtest.Assert(array.Len(), 1) }) } func TestDelayAddEntry(t *testing.T) { gtest.Case(t, func() { array := garray.New(0, 0) gtimer.DelayAddEntry(200*time.Millisecond, 200*time.Millisecond, func() { array.Append(1) }, false, 2, gtimer.STATUS_READY) time.Sleep(300*time.Millisecond) gtest.Assert(array.Len(), 0) time.Sleep(1000*time.Millisecond) gtest.Assert(array.Len(), 2) }) } func TestDelayAddSingleton(t *testing.T) { gtest.Case(t, func() { array := garray.New(0, 0) gtimer.DelayAddSingleton(200*time.Millisecond, 200*time.Millisecond, func() { array.Append(1) time.Sleep(10000*time.Millisecond) }) time.Sleep(300*time.Millisecond) gtest.Assert(array.Len(), 0) time.Sleep(1000*time.Millisecond) gtest.Assert(array.Len(), 1) }) } func TestDelayAddOnce(t *testing.T) { gtest.Case(t, func() { array := garray.New(0, 0) gtimer.DelayAddOnce(200*time.Millisecond, 200*time.Millisecond, func() { array.Append(1) }) time.Sleep(300*time.Millisecond) gtest.Assert(array.Len(), 0) time.Sleep(1000*time.Millisecond) gtest.Assert(array.Len(), 1) }) } func TestDelayAddTimes(t *testing.T) { gtest.Case(t, func() { array := garray.New(0, 0) gtimer.DelayAddTimes(200*time.Millisecond, 200*time.Millisecond, 2, func() { array.Append(1) }) time.Sleep(300*time.Millisecond) gtest.Assert(array.Len(), 0) time.Sleep(1000*time.Millisecond) gtest.Assert(array.Len(), 2) }) }