zolfa
/
tendermint


								package async


								import (

									"errors"

									"fmt"

									"sync/atomic"

									"testing"

									"time"


									"github.com/stretchr/testify/assert"

								)


								func TestParallel(t *testing.T) {


									// Create tasks.

									var counter = new(int32)

									var tasks = make([]Task, 100*1000)

									for i := 0; i < len(tasks); i++ {

										tasks[i] = func(i int) (res interface{}, abort bool, err error) {

											atomic.AddInt32(counter, 1)

											return -1 * i, false, nil

										}

									}


									// Run in parallel.

									var trs, ok = Parallel(tasks...)

									assert.True(t, ok)


									// Verify.

									assert.Equal(t, int(*counter), len(tasks), "Each task should have incremented the counter already")

									var failedTasks int

									for i := 0; i < len(tasks); i++ {

										taskResult, ok := trs.LatestResult(i)

										switch {

										case !ok:

											assert.Fail(t, "Task #%v did not complete.", i)

											failedTasks++

										case taskResult.Error != nil:

											assert.Fail(t, "Task should not have errored but got %v", taskResult.Error)

											failedTasks++

										case !assert.Equal(t, -1*i, taskResult.Value.(int)):

											assert.Fail(t, "Task should have returned %v but got %v", -1*i, taskResult.Value.(int))

											failedTasks++

										}

										// else {

										// Good!

										// }

									}

									assert.Equal(t, failedTasks, 0, "No task should have failed")

									assert.Nil(t, trs.FirstError(), "There should be no errors")

									assert.Equal(t, 0, trs.FirstValue(), "First value should be 0")

								}


								func TestParallelAbort(t *testing.T) {


									var flow1 = make(chan struct{}, 1)

									var flow2 = make(chan struct{}, 1)

									var flow3 = make(chan struct{}, 1) // Cap must be > 0 to prevent blocking.

									var flow4 = make(chan struct{}, 1)


									// Create tasks.

									var tasks = []Task{

										func(i int) (res interface{}, abort bool, err error) {

											assert.Equal(t, i, 0)

											flow1 <- struct{}{}

											return 0, false, nil

										},

										func(i int) (res interface{}, abort bool, err error) {

											assert.Equal(t, i, 1)

											flow2 <- <-flow1

											return 1, false, errors.New("some error")

										},

										func(i int) (res interface{}, abort bool, err error) {

											assert.Equal(t, i, 2)

											flow3 <- <-flow2

											return 2, true, nil

										},

										func(i int) (res interface{}, abort bool, err error) {

											assert.Equal(t, i, 3)

											<-flow4

											return 3, false, nil

										},

									}


									// Run in parallel.

									var taskResultSet, ok = Parallel(tasks...)

									assert.False(t, ok, "ok should be false since we aborted task #2.")


									// Verify task #3.

									// Initially taskResultSet.chz[3] sends nothing since flow4 didn't send.

									waitTimeout(t, taskResultSet.chz[3], "Task #3")


									// Now let the last task (#3) complete after abort.

									flow4 <- <-flow3


									// Wait until all tasks have returned or panic'd.

									taskResultSet.Wait()


									// Verify task #0, #1, #2.

									checkResult(t, taskResultSet, 0, 0, nil, nil)

									checkResult(t, taskResultSet, 1, 1, errors.New("some error"), nil)

									checkResult(t, taskResultSet, 2, 2, nil, nil)

									checkResult(t, taskResultSet, 3, 3, nil, nil)

								}


								func TestParallelRecover(t *testing.T) {


									// Create tasks.

									var tasks = []Task{

										func(i int) (res interface{}, abort bool, err error) {

											return 0, false, nil

										},

										func(i int) (res interface{}, abort bool, err error) {

											return 1, false, errors.New("some error")

										},

										func(i int) (res interface{}, abort bool, err error) {

											panic(2)

										},

									}


									// Run in parallel.

									var taskResultSet, ok = Parallel(tasks...)

									assert.False(t, ok, "ok should be false since we panic'd in task #2.")


									// Verify task #0, #1, #2.

									checkResult(t, taskResultSet, 0, 0, nil, nil)

									checkResult(t, taskResultSet, 1, 1, errors.New("some error"), nil)

									checkResult(t, taskResultSet, 2, nil, nil, fmt.Errorf("panic in task %v", 2).Error())

								}


								// Wait for result

								func checkResult(t *testing.T, taskResultSet *TaskResultSet, index int,

									val interface{}, err error, pnk interface{}) {

									taskResult, ok := taskResultSet.LatestResult(index)

									taskName := fmt.Sprintf("Task #%v", index)

									assert.True(t, ok, "TaskResultCh unexpectedly closed for %v", taskName)

									assert.Equal(t, val, taskResult.Value, taskName)

									switch {

									case err != nil:

										assert.Equal(t, err.Error(), taskResult.Error.Error(), taskName)

									case pnk != nil:

										assert.Equal(t, pnk, taskResult.Error.Error(), taskName)

									default:

										assert.Nil(t, taskResult.Error, taskName)

									}

								}


								// Wait for timeout (no result)

								func waitTimeout(t *testing.T, taskResultCh TaskResultCh, taskName string) {

									select {

									case _, ok := <-taskResultCh:

										if !ok {

											assert.Fail(t, "TaskResultCh unexpectedly closed (%v)", taskName)

										} else {

											assert.Fail(t, "TaskResultCh unexpectedly returned for %v", taskName)

										}

									case <-time.After(1 * time.Second): // TODO use deterministic time?

										// Good!

									}

								}