Go语言context test源码分析
zwf193071 人气:01.测试例子分析
example_test.go,展示了With-系列的4个例子
func ExampleWithCancel() { gen := func(ctx context.Context) <-chan int { dst := make(chan int) n := 1 go func() { for { select { case <-ctx.Done(): return // returning not to leak the goroutine case dst <- n: n++ } } }() return dst } ctx, cancel := context.WithCancel(context.Background()) defer cancel() // cancel when we are finished consuming integers for n := range gen(ctx) { fmt.Println(n) if n == 5 { break } } // Output: // 1 // 2 // 3 // 4 // 5 }
结构分析,gen
是一个函数,返回值是一个信道, for range channel
是有特殊意义的, for会循环从channel读数据,直到channel被close(),不然就是无限循环.
gen内部的协程就是典型的闭包,for range会不断触发读,gen内部的for select 会不断触发写,主协程读5次之后,会结束main函数,会触发defer函数, 也就是取消操作对应的回调,此时done信道会被close,gen内部的协程会正常退出.
这个例子是测试支持取消信号的上下文,取消函数的调用放在了main
的defer
函数中.
const shortDuration = 1 * time.Millisecond func ExampleWithDeadline() { d := time.Now().Add(shortDuration) ctx, cancel := context.WithDeadline(context.Background(), d) // Even though ctx will be expired, it is good practice to call its // cancellation function in any case. Failure to do so may keep the // context and its parent alive longer than necessary. defer cancel() select { case <-time.After(1 * time.Second): fmt.Println("overslept") case <-ctx.Done(): fmt.Println(ctx.Err()) } // Output: // context deadline exceeded }
deadline
的这个例子,在main
的defer
中也有主动调用取消函数的. 实际上通过打印可以显示deadline是否按预期工作.
func ExampleWithTimeout() { ctx, cancel := context.WithTimeout(context.Background(), shortDuration) defer cancel() select { case <-time.After(1 * time.Second): fmt.Println("overslept") case <-ctx.Done(): fmt.Println(ctx.Err()) // prints "context deadline exceeded" } // Output: // context deadline exceeded }
timeout
只是deadline
的一种简写.
func ExampleWithValue() { type favContextKey string f := func(ctx context.Context, k favContextKey) { if v := ctx.Value(k); v != nil { fmt.Println("found value:", v) return } fmt.Println("key not found:", k) } k := favContextKey("language") ctx := context.WithValue(context.Background(), k, "Go") f(ctx, k) f(ctx, favContextKey("color")) // Output: // found value: Go // key not found: color }
context.WithValue
和Context.Value()
是存取操作, 取的时候,如果key没找到,会返回nil.
2.单元测试
context_text.go,x_test.go
是单元测试, example_test.go
是示例,benchmark_test.go是基准测试, net_test.go展示了deadline对net包的支持.
先看单元测试的context_text.go.
type testingT interface {} type otherContext struct {} func quiescent(t testingT) time.Duration {} func XTestBackground(t testingT) {} func XTestTODO(t testingT) {} func XTestWithCancel(t testingT) {} func contains(m map[canceler]struct{}, key canceler) bool {} func XTestParentFinishesChild(t testingT) {} func XTestChildFinishesFirst(t testingT) {} func testDeadline(c Context, name string, t testingT) {} func XTestDeadline(t testingT) {} func XTestTimeout(t testingT) {} func XTestCanceledTimeout(t testingT) {} func XTestValues(t testingT) {} func XTestAllocs(t testingT, testingShort func() bool, testingAllocsPerRun func(int, func()) float64) {} func XTestSimultaneousCancels(t testingT) {} func XTestInterlockedCancels(t testingT) {} func XTestLayersCancel(t testingT) {} func XTestLayersTimeout(t testingT) {} func XTestCancelRemoves(t testingT) {} func XTestWithCancelCanceledParent(t testingT) {} func XTestWithValueChecksKey(t testingT) {} func XTestInvalidDerivedFail(t testingT) {} func recoveredValue(fn func()) (v interface{}) {} func XTestDeadlineExceededSupportsTimeout(t testingT) {} type myCtx struct {} type myDoneCtx struct {} func (d *myDoneCtx) Done() <-chan struct{} {} func XTestCustomContextGoroutines(t testingT) {}
这暴露的大多测试函数的参数类型是testingT接口类型,但这个源文件中没有实现testingT
接口的,
func TestBackground(t *testing.T) { XTestBackground(t) } func TestTODO(t *testing.T) { XTestTODO(t) } func TestWithCancel(t *testing.T) { XTestWithCancel(t) } func TestParentFinishesChild(t *testing.T) { XTestParentFinishesChild(t) } func TestChildFinishesFirst(t *testing.T) { XTestChildFinishesFirst(t) } func TestDeadline(t *testing.T) { XTestDeadline(t) } func TestTimeout(t *testing.T) { XTestTimeout(t) } func TestCanceledTimeout(t *testing.T) { XTestCanceledTimeout(t) } func TestValues(t *testing.T) { XTestValues(t) } func TestAllocs(t *testing.T) { XTestAllocs(t, testing.Short, testing.AllocsPerRun) } func TestSimultaneousCancels(t *testing.T) { XTestSimultaneousCancels(t) } func TestInterlockedCancels(t *testing.T) { XTestInterlockedCancels(t) } func TestLayersCancel(t *testing.T) { XTestLayersCancel(t) } func TestLayersTimeout(t *testing.T) { XTestLayersTimeout(t) } func TestCancelRemoves(t *testing.T) { XTestCancelRemoves(t) } func TestWithCancelCanceledParent(t *testing.T) { XTestWithCancelCanceledParent(t) } func TestWithValueChecksKey(t *testing.T) { XTestWithValueChecksKey(t) } func TestInvalidDerivedFail(t *testing.T) { XTestInvalidDerivedFail(t) } func TestDeadlineExceededSupportsTimeout(t *testing.T) { XTestDeadlineExceededSupportsTimeout(t) } func TestCustomContextGoroutines(t *testing.T) { XTestCustomContextGoroutines(t) }
这是x_test.go
的内容,直接是用testing.T
类型来实现testingT接口.
那先分析一下testing.T对testingT接口的实现.
type T struct { common isParallel bool context *testContext } func (t *T) Deadline() (deadline time.Time, ok bool) { deadline = t.context.deadline return deadline, !deadline.IsZero() }
注意:testing.T.context不是context.Context的实现类型, Deadline()返回了t.context中存储的deadline信息.
testing.T内嵌了testing.common,大部分方法集都来至common:
Error(args ...interface{}) Errorf(format string, args ...interface{}) Fail() FailNow() Failed() bool Fatal(args ...interface{}) Fatalf(format string, args ...interface{}) Helper() Log(args ...interface{}) Logf(format string, args ...interface{}) Name() string Skip(args ...interface{}) SkipNow() Skipf(format string, args ...interface{}) Skipped() bool
Parallel()
是由testing.T
实现,某个测试用例多次重复执行时, 可启用并发参数.
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