zolfa
/
tendermint


								package async


								import (

									"fmt"

									"sync/atomic"

								)


								//----------------------------------------

								// Task


								// val: the value returned after task execution.

								// err: the error returned during task completion.

								// abort: tells Parallel to return, whether or not all tasks have completed.

								type Task func(i int) (val interface{}, abort bool, err error)


								type TaskResult struct {

									Value interface{}

									Error error

								}


								type TaskResultCh <-chan TaskResult


								type taskResultOK struct {

									TaskResult

									OK bool

								}


								type TaskResultSet struct {

									chz     []TaskResultCh

									results []taskResultOK

								}


								func newTaskResultSet(chz []TaskResultCh) *TaskResultSet {

									return &TaskResultSet{

										chz:     chz,

										results: make([]taskResultOK, len(chz)),

									}

								}


								func (trs *TaskResultSet) Channels() []TaskResultCh {

									return trs.chz

								}


								func (trs *TaskResultSet) LatestResult(index int) (TaskResult, bool) {

									if len(trs.results) <= index {

										return TaskResult{}, false

									}

									resultOK := trs.results[index]

									return resultOK.TaskResult, resultOK.OK

								}


								// NOTE: Not concurrency safe.

								// Writes results to trs.results without waiting for all tasks to complete.

								func (trs *TaskResultSet) Reap() *TaskResultSet {

									for i := 0; i < len(trs.results); i++ {

										var trch = trs.chz[i]

										select {

										case result, ok := <-trch:

											if ok {

												// Write result.

												trs.results[i] = taskResultOK{

													TaskResult: result,

													OK:         true,

												}

											}

											// else {

											// We already wrote it.

											// }

										default:

											// Do nothing.

										}

									}

									return trs

								}


								// NOTE: Not concurrency safe.

								// Like Reap() but waits until all tasks have returned or panic'd.

								func (trs *TaskResultSet) Wait() *TaskResultSet {

									for i := 0; i < len(trs.results); i++ {

										var trch = trs.chz[i]

										result, ok := <-trch

										if ok {

											// Write result.

											trs.results[i] = taskResultOK{

												TaskResult: result,

												OK:         true,

											}

										}

										// else {

										// We already wrote it.

										// }

									}

									return trs

								}


								// Returns the firstmost (by task index) error as

								// discovered by all previous Reap() calls.

								func (trs *TaskResultSet) FirstValue() interface{} {

									for _, result := range trs.results {

										if result.Value != nil {

											return result.Value

										}

									}

									return nil

								}


								// Returns the firstmost (by task index) error as

								// discovered by all previous Reap() calls.

								func (trs *TaskResultSet) FirstError() error {

									for _, result := range trs.results {

										if result.Error != nil {

											return result.Error

										}

									}

									return nil

								}


								//----------------------------------------

								// Parallel


								// Run tasks in parallel, with ability to abort early.

								// Returns ok=false iff any of the tasks returned abort=true.

								// NOTE: Do not implement quit features here.  Instead, provide convenient

								// concurrent quit-like primitives, passed implicitly via Task closures. (e.g.

								// it's not Parallel's concern how you quit/abort your tasks).

								func Parallel(tasks ...Task) (trs *TaskResultSet, ok bool) {

									var taskResultChz = make([]TaskResultCh, len(tasks)) // To return.

									var taskDoneCh = make(chan bool, len(tasks))         // A "wait group" channel, early abort if any true received.

									var numPanics = new(int32)                           // Keep track of panics to set ok=false later.


									// We will set it to false iff any tasks panic'd or returned abort.

									ok = true


									// Start all tasks in parallel in separate goroutines.

									// When the task is complete, it will appear in the

									// respective taskResultCh (associated by task index).

									for i, task := range tasks {

										var taskResultCh = make(chan TaskResult, 1) // Capacity for 1 result.

										taskResultChz[i] = taskResultCh

										go func(i int, task Task, taskResultCh chan TaskResult) {

											// Recovery

											defer func() {

												if pnk := recover(); pnk != nil {

													atomic.AddInt32(numPanics, 1)

													// Send panic to taskResultCh.

													taskResultCh <- TaskResult{nil, fmt.Errorf("panic in task %v", pnk)}

													// Closing taskResultCh lets trs.Wait() work.

													close(taskResultCh)

													// Decrement waitgroup.

													taskDoneCh <- false

												}

											}()

											// Run the task.

											var val, abort, err = task(i)

											// Send val/err to taskResultCh.

											// NOTE: Below this line, nothing must panic/

											taskResultCh <- TaskResult{val, err}

											// Closing taskResultCh lets trs.Wait() work.

											close(taskResultCh)

											// Decrement waitgroup.

											taskDoneCh <- abort

										}(i, task, taskResultCh)

									}


									// Wait until all tasks are done, or until abort.

									// DONE_LOOP:

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

										abort := <-taskDoneCh

										if abort {

											ok = false

											break

										}

									}


									// Ok is also false if there were any panics.

									// We must do this check here (after DONE_LOOP).

									ok = ok && (atomic.LoadInt32(numPanics) == 0)


									return newTaskResultSet(taskResultChz).Reap(), ok

								}