- package v2
-
- import (
- "fmt"
- "testing"
- "time"
-
- "github.com/stretchr/testify/assert"
- )
-
- type eventA struct {
- priorityNormal
- }
-
- var done = fmt.Errorf("done")
-
- func simpleHandler(event Event) (Event, error) {
- if _, ok := event.(eventA); ok {
- return noOp, done
- }
- return noOp, nil
- }
-
- func TestRoutineFinal(t *testing.T) {
- var (
- bufferSize = 10
- routine = newRoutine("simpleRoutine", simpleHandler, bufferSize)
- )
-
- assert.False(t, routine.isRunning(),
- "expected an initialized routine to not be running")
- go routine.start()
- <-routine.ready()
- assert.True(t, routine.isRunning(),
- "expected an started routine")
-
- assert.True(t, routine.send(eventA{}),
- "expected sending to a ready routine to succeed")
-
- assert.Equal(t, done, <-routine.final(),
- "expected the final event to be done")
-
- assert.False(t, routine.isRunning(),
- "expected an completed routine to no longer be running")
- }
-
- func TestRoutineStop(t *testing.T) {
- var (
- bufferSize = 10
- routine = newRoutine("simpleRoutine", simpleHandler, bufferSize)
- )
-
- assert.False(t, routine.send(eventA{}),
- "expected sending to an unstarted routine to fail")
-
- go routine.start()
- <-routine.ready()
-
- assert.True(t, routine.send(eventA{}),
- "expected sending to a running routine to succeed")
-
- routine.stop()
-
- assert.False(t, routine.send(eventA{}),
- "expected sending to a stopped routine to fail")
- }
-
- type finalCount struct {
- count int
- }
-
- func (f finalCount) Error() string {
- return "end"
- }
-
- func genStatefulHandler(maxCount int) handleFunc {
- counter := 0
- return func(event Event) (Event, error) {
- if _, ok := event.(eventA); ok {
- counter += 1
- if counter >= maxCount {
- return noOp, finalCount{counter}
- }
-
- return eventA{}, nil
- }
- return noOp, nil
- }
- }
-
- func feedback(r *Routine) {
- for event := range r.next() {
- r.send(event)
- }
- }
-
- func TestStatefulRoutine(t *testing.T) {
- var (
- count = 10
- handler = genStatefulHandler(count)
- bufferSize = 20
- routine = newRoutine("statefulRoutine", handler, bufferSize)
- )
-
- go routine.start()
- go feedback(routine)
- <-routine.ready()
-
- assert.True(t, routine.send(eventA{}),
- "expected sending to a started routine to succeed")
-
- final := <-routine.final()
- if fnl, ok := final.(finalCount); ok {
- assert.Equal(t, count, fnl.count,
- "expected the routine to count to 10")
- } else {
- t.Fail()
- }
- }
-
- type lowPriorityEvent struct {
- priorityLow
- }
-
- type highPriorityEvent struct {
- priorityHigh
- }
-
- func handleWithPriority(event Event) (Event, error) {
- switch event.(type) {
- case lowPriorityEvent:
- return noOp, nil
- case highPriorityEvent:
- return noOp, done
- }
- return noOp, nil
- }
-
- func TestPriority(t *testing.T) {
- var (
- bufferSize = 20
- routine = newRoutine("priorityRoutine", handleWithPriority, bufferSize)
- )
-
- go routine.start()
- <-routine.ready()
- go func() {
- for {
- routine.send(lowPriorityEvent{})
- time.Sleep(1 * time.Millisecond)
- }
- }()
- time.Sleep(10 * time.Millisecond)
-
- assert.True(t, routine.isRunning(),
- "expected an started routine")
- assert.True(t, routine.send(highPriorityEvent{}),
- "expected send to succeed even when saturated")
-
- assert.Equal(t, done, <-routine.final())
- assert.False(t, routine.isRunning(),
- "expected an started routine")
- }
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