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Provides an efficient allocation free async/await integration for Unity.

For technical details, see blog post: UniTask v2 — Zero Allocation async/await for Unity, with Asynchronous LINQ
For advanced tips, see blog post: Extends UnityWebRequest via async decorator pattern — Advanced Techniques of UniTask

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Table of Contents

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Getting started

Install via UPM package with git reference or asset package(UniTask.*.*.*.unitypackage) available in UniTask/releases.

// extension awaiter/methods can be used by this namespace
using Cysharp.Threading.Tasks;

// You can return type as struct UniTask<T>(or UniTask), it is unity specialized lightweight alternative of Task<T>
// zero allocation and fast excution for zero overhead async/await integrate with Unity
async UniTask<string> DemoAsync()
{
    // You can await Unity's AsyncObject
    var asset = await Resources.LoadAsync<TextAsset>("foo");
    var txt = (await UnityWebRequest.Get("https://...").SendWebRequest()).downloadHandler.text;
    await SceneManager.LoadSceneAsync("scene2");

    // .WithCancellation enables Cancel, GetCancellationTokenOnDestroy synchornizes with lifetime of GameObject
    // after Unity 2022.2, you can use `destroyCancellationToken` in MonoBehaviour
    var asset2 = await Resources.LoadAsync<TextAsset>("bar").WithCancellation(this.GetCancellationTokenOnDestroy());

    // .ToUniTask accepts progress callback(and all options), Progress.Create is a lightweight alternative of IProgress<T>
    var asset3 = await Resources.LoadAsync<TextAsset>("baz").ToUniTask(Progress.Create<float>(x => Debug.Log(x)));

    // await frame-based operation like a coroutine
    await UniTask.DelayFrame(100); 

    // replacement of yield return new WaitForSeconds/WaitForSecondsRealtime
    await UniTask.Delay(TimeSpan.FromSeconds(10), ignoreTimeScale: false);
    
    // yield any playerloop timing(PreUpdate, Update, LateUpdate, etc...)
    await UniTask.Yield(PlayerLoopTiming.PreLateUpdate);

    // replacement of yield return null
    await UniTask.Yield();
    await UniTask.NextFrame();

    // replacement of WaitForEndOfFrame
#if UNITY_2023_1_OR_NEWER
    await UniTask.WaitForEndOfFrame();
#else
    // requires MonoBehaviour(CoroutineRunner))
    await UniTask.WaitForEndOfFrame(this); // this is MonoBehaviour
#endif

    // replacement of yield return new WaitForFixedUpdate(same as UniTask.Yield(PlayerLoopTiming.FixedUpdate))
    await UniTask.WaitForFixedUpdate();
    
    // replacement of yield return WaitUntil
    await UniTask.WaitUntil(() => isActive == false);

    // special helper of WaitUntil
    await UniTask.WaitUntilValueChanged(this, x => x.isActive);

    // You can await IEnumerator coroutines
    await FooCoroutineEnumerator();

    // You can await a standard task
    await Task.Run(() => 100);

    // Multithreading, run on ThreadPool under this code
    await UniTask.SwitchToThreadPool();

    /* work on ThreadPool */

    // return to MainThread(same as `ObserveOnMainThread` in UniRx)
    await UniTask.SwitchToMainThread();

    // get async webrequest
    async UniTask<string> GetTextAsync(UnityWebRequest req)
    {
        var op = await req.SendWebRequest();
        return op.downloadHandler.text;
    }

    var task1 = GetTextAsync(UnityWebRequest.Get("http://google.com"));
    var task2 = GetTextAsync(UnityWebRequest.Get("http://bing.com"));
    var task3 = GetTextAsync(UnityWebRequest.Get("http://yahoo.com"));

    // concurrent async-wait and get results easily by tuple syntax
    var (google, bing, yahoo) = await UniTask.WhenAll(task1, task2, task3);

    // shorthand of WhenAll, tuple can await directly
    var (google2, bing2, yahoo2) = await (task1, task2, task3);

    // return async-value.(or you can use `UniTask`(no result), `UniTaskVoid`(fire and forget)).
    return (asset as TextAsset)?.text ?? throw new InvalidOperationException("Asset not found");
}

Basics of UniTask and AsyncOperation

UniTask features rely on C# 7.0(task-like custom async method builder feature) so the required Unity version is after Unity 2018.3, the official lowest version supported is Unity 2018.4.13f1.

Why is UniTask(custom task-like object) required? Because Task is too heavy and not matched to Unity threading (single-thread). UniTask does not use threads and SynchronizationContext/ExecutionContext because Unity's asynchronous object is automaticaly dispatched by Unity's engine layer. It achieves faster and lower allocation, and is completely integrated with Unity.

You can await AsyncOperation, ResourceRequest, AssetBundleRequest, AssetBundleCreateRequest, UnityWebRequestAsyncOperation, AsyncGPUReadbackRequest, IEnumerator and others when using Cysharp.Threading.Tasks;.

UniTask provides three pattern of extension methods.

* await asyncOperation;
* .WithCancellation(CancellationToken);
* .ToUniTask(IProgress, PlayerLoopTiming, CancellationToken);

WithCancellation is a simple version of ToUniTask, both return UniTask. For details of cancellation, see: Cancellation and Exception handling section.

Note: await directly is returned from native timing of PlayerLoop but WithCancellation and ToUniTask are returned from specified PlayerLoopTiming. For details of timing, see: PlayerLoop section.

Note: AssetBundleRequest has asset and allAssets, default await returns asset. If you want to get allAssets, you can use AwaitForAllAssets() method.

The type of UniTask can use utilities like UniTask.WhenAll, UniTask.WhenAny, UniTask.WhenEach. They are like Task.WhenAll/Task.WhenAny but the return type is more useful. They return value tuples so you can deconstruct each result and pass multiple types.

public async UniTaskVoid LoadManyAsync()
{
    // parallel load.
    var (a, b, c) = await UniTask.WhenAll(
        LoadAsSprite("foo"),
        LoadAsSprite("bar"),
        LoadAsSprite("baz"));
}

async UniTask<Sprite> LoadAsSprite(string path)
{
    var resource = await Resources.LoadAsync<Sprite>(path);
    return (resource as Sprite);
}

If you want to convert a callback to UniTask, you can use UniTaskCompletionSource<T> which is a lightweight edition of TaskCompletionSource<T>.

public UniTask<int> WrapByUniTaskCompletionSource()
{
    var utcs = new UniTaskCompletionSource<int>();

    // when complete, call utcs.TrySetResult();
    // when failed, call utcs.TrySetException();
    // when cancel, call utcs.TrySetCanceled();

    return utcs.Task; //return UniTask<int>
}

You can convert Task -> UniTask: AsUniTask, UniTask -> UniTask<AsyncUnit>: AsAsyncUnitUniTask, UniTask<T> -> UniTask: AsUniTask. UniTask<T> -> UniTask's conversion cost is free.

If you want to convert async to coroutine, you can use .ToCoroutine(), this is useful if you want to only allow using the coroutine system.

UniTask can not await twice. This is a similar constraint to the ValueTask/IValueTaskSource introduced in .NET Standard 2.1.

The following operations should never be performed on a ValueTask<TResult> instance:

If you do any of the above, the results are undefined.

var task = UniTask.DelayFrame(10);
await task;
await task; // NG, throws Exception

Store to the class field, you can use UniTask.Lazy that supports calling multiple times. .Preserve() allows for multiple calls (internally cached results). This is useful when there are multiple calls in a function scope.

Also UniTaskCompletionSource can await multiple times and await from many callers.

Cancellation and Exception handling

Some UniTask factory methods have a CancellationToken cancellationToken = default parameter. Also some async operations for Unity have WithCancellation(CancellationToken) and ToUniTask(..., CancellationToken cancellation = default) extension methods.

You can pass CancellationToken to parameter by standard CancellationTokenSource.

var cts = new CancellationTokenSource();

cancelButton.onClick.AddListener(() =>
{
    cts.Cancel();
});

await UnityWebRequest.Get("http://google.co.jp").SendWebRequest().WithCancellation(cts.Token);

await UniTask.DelayFrame(1000, cancellationToken: cts.Token);

CancellationToken can be created by CancellationTokenSource or MonoBehaviour's extension method GetCancellationTokenOnDestroy.

// this CancellationToken lifecycle is same as GameObject.
await UniTask.DelayFrame(1000, cancellationToken: this.GetCancellationTokenOnDestroy());

For propagate Cancellation, all async method recommend to accept CancellationToken cancellationToken at last argument, and pass CancellationToken from root to end.

await FooAsync(this.GetCancellationTokenOnDestroy());

// ---

async UniTask FooAsync(CancellationToken cancellationToken)
{
    await BarAsync(cancellationToken);
}

async UniTask BarAsync(CancellationToken cancellationToken)
{
    await UniTask.Delay(TimeSpan.FromSeconds(3), cancellationToken);
}

CancellationToken means lifecycle of async. You can hold your own lifecycle insteadof default CancellationTokenOnDestroy.

public class MyBehaviour : MonoBehaviour
{
    CancellationTokenSource disableCancellation = new CancellationTokenSource();
    CancellationTokenSource destroyCancellation = new CancellationTokenSource();

    private void OnEnable()
    {
        if (disableCancellation != null)
        {
            disableCancellation.Dispose();
        }
        disableCancellation = new CancellationTokenSource();
    }

    private void OnDisable()
    {
        disableCancellation.Cancel();
    }

    private void OnDestroy()
    {
        destroyCancellation.Cancel();
        destroyCancellation.Dispose();
    }
}

After Unity 2022.2, Unity adds CancellationToken in MonoBehaviour.destroyCancellationToken and Application.exitCancellationToken.

When cancellation is detected, all methods throw OperationCanceledException and propagate upstream. When exception(not limited to OperationCanceledException) is not handled in async method, it is propagated finally to UniTaskScheduler.UnobservedTaskException. The default behaviour of received unhandled exception is to write log as exception. Log level can be changed using UniTaskScheduler.UnobservedExceptionWriteLogType. If you want to use custom behaviour, set an action to UniTaskScheduler.UnobservedTaskException.

And also OperationCanceledException is a special exception, this is silently ignored at UnobservedTaskException.

If you want to cancel behaviour in an async UniTask method, throw OperationCanceledException manually.

public async UniTask<int> FooAsync()
{
    await UniTask.Yield();
    throw new OperationCanceledException();
}

If you handle an exception but want to ignore(propagate to global cancellation handling), use an exception filter.

public async UniTask<int> BarAsync()
{
    try
    {
        var x = await FooAsync();
        return x * 2;
    }
    catch (Exception ex) when (!(ex is OperationCanceledException)) // when (ex is not OperationCanceledException) at C# 9.0
    {
        return -1;
    }
}

throws/catch OperationCanceledException is slightly heavy, so if performance is a concern, use UniTask.SuppressCancellationThrow to avoid OperationCanceledException throw. It returns (bool IsCanceled, T Result) instead of throwing.

var (isCanceled, _) = await UniTask.DelayFrame(10, cancellationToken: cts.Token).SuppressCancellationThrow();
if (isCanceled)
{
    // ...
}

Note: Only suppress throws if you call directly into the most source method. Otherwise, the return value will be converted, but the entire pipeline will not suppress throws.

Some features that use Unity's player loop, such as UniTask.Yield and UniTask.Delay etc, determines CancellationToken state on the player loop. This means it does not cancel immediately upon CancellationToken fired.

If you want to change this behaviour, the cancellation to be immediate, set the cancelImmediately flag as an argument.

await UniTask.Yield(cancellationToken, cancelImmediately: true);

Note: Setting cancelImmediately to true and detecting an immediate cancellation is more costly than the default behavior. This is because it uses CancellationToken.Register; it is heavier than checking CancellationToken on the player loop.

Timeout handling

Timeout is a variation of cancellation. You can set timeout by CancellationTokenSouce.CancelAfterSlim(TimeSpan) and pass CancellationToken to async methods.

var cts = new CancellationTokenSource();
cts.CancelAfterSlim(TimeSpan.FromSeconds(5)); // 5sec timeout.

try
{
    await UnityWebRequest.Get("http://foo").SendWebRequest().WithCancellation(cts.Token);
}
catch (OperationCanceledException ex)
{
    if (ex.CancellationToken == cts.Token)
    {
        UnityEngine.Debug.Log("Timeout");
    }
}

CancellationTokenSouce.CancelAfter is a standard api. However in Unity you should not use it because it depends threading timer. CancelAfterSlim is UniTask's extension methods, it uses PlayerLoop instead.

If you want to use timeout with other source of cancellation, use CancellationTokenSource.CreateLinkedTokenSource.

var cancelToken = new CancellationTokenSource();
cancelButton.onClick.AddListener(() =>
{
    cancelToken.Cancel(); // cancel from button click.
});

var timeoutToken = new CancellationTokenSource();
timeoutToken.CancelAfterSlim(TimeSpan.FromSeconds(5)); // 5sec timeout.

try
{
    // combine token
    var linkedTokenSource = CancellationTokenSource.CreateLinkedTokenSource(cancelToken.Token, timeoutToken.Token);

    await UnityWebRequest.Get("http://foo").SendWebRequest().WithCancellation(linkedTokenSource.Token);
}
catch (OperationCanceledException ex)
{
    if (timeoutToken.IsCancellationRequested)
    {
        UnityEngine.Debug.Log("Timeout.");
    }
    else if (cancelToken.IsCancellationRequested)
    {
        UnityEngine.Debug.Log("Cancel clicked.");
    }
}

Optimize for reduce allocation of CancellationTokenSource for timeout per call async method, you can use UniTask's TimeoutController.

TimeoutController timeoutController = new TimeoutController(); // setup to field for reuse.

async UniTask FooAsync()
{
    try
    {
        // you can pass timeoutController.Timeout(TimeSpan) to cancellationToken.
        await UnityWebRequest.Get("http://foo").SendWebRequest()
            .WithCancellation(timeoutController.Timeout(TimeSpan.FromSeconds(5)));
        timeoutController.Reset(); // call Reset(Stop timeout timer and ready for reuse) when succeed.
    }
    catch (OperationCanceledException ex)
    {
        if (timeoutController.IsTimeout())
        {
            UnityEngine.Debug.Log("timeout");
        }
    }
}

If you want to use timeout with other source of cancellation, use new TimeoutController(CancellationToken).

TimeoutController timeoutController;
CancellationTokenSource clickCancelSource;

void Start()
{
    this.clickCancelSource = new CancellationTokenSource();
    this.timeoutController = new TimeoutController(clickCancelSource);
}

Note: UniTask has .Timeout, .TimeoutWithoutException methods however, if possible, do not use these, please pass CancellationToken. Because .Timeout work from external of task, can not stop timeoutted task. .Timeout means ignore result when timeout. If you pass a CancellationToken to the method, it will act from inside of the task, so it is possible to stop a running task.

Progress

Some async operations for unity have ToUniTask(IProgress<float> progress = null, ...) extension methods.

var progress = Progress.Create<float>(x => Debug.Log(x));

var request = await UnityWebRequest.Get("http://google.co.jp")
    .SendWebRequest()
    .ToUniTask(progress: progress);

You should not use standard new System.Progress<T>, because it causes allocation every time. Use Cysharp.Threading.Tasks.Progress instead. This progress factory has two methods, Create and CreateOnlyValueChanged. CreateOnlyValueChanged calls only when the progress value has changed.

Implementing IProgress interface to caller is better as there is no lambda allocation.

public class Foo : MonoBehaviour, IProgress<float>
{
    public void Report(float value)
    {
        UnityEngine.Debug.Log(value);
    }

    public async UniTaskVoid WebRequest()
    {
        var request = await UnityWebRequest.Get("http://google.co.jp")
            .SendWebRequest()
            .ToUniTask(progress: this); // pass this
    }
}

PlayerLoop

UniTask is run on a custom PlayerLoop. UniTask's playerloop based methods (such as Delay, DelayFrame, asyncOperation.ToUniTask, etc...) accept this PlayerLoopTiming.

public enum PlayerLoopTiming
{
    Initialization = 0,
    LastInitialization = 1,

    EarlyUpdate = 2,
    LastEarlyUpdate = 3,

    FixedUpdate = 4,
    LastFixedUpdate = 5,

    PreUpdate = 6,
    LastPreUpdate = 7,

    Update = 8,
    LastUpdate = 9,

    PreLateUpdate = 10,
    LastPreLateUpdate = 11,

    PostLateUpdate = 12,
    LastPostLateUpdate = 13
    
#if UNITY_2020_2_OR_NEWER
    TimeUpdate = 14,
    LastTimeUpdate = 15,
#endif
}

It indicates when to run, you can check PlayerLoopList.md to Unity's default playerloop and injected UniTask's custom loop.

PlayerLoopTiming.Update is similar to yield return null in a coroutine, but it is called before Update(Update and uGUI events(button.onClick, etc...) are called on ScriptRunBehaviourUpdate, yield return null is called on ScriptRunDelayedDynamicFrameRate). PlayerLoopTiming.FixedUpdate is similar to WaitForFixedUpdate.

PlayerLoopTiming.LastPostLateUpdate is not equivalent to coroutine's yield return new WaitForEndOfFrame(). Coroutine's WaitForEndOfFrame seems to run after the PlayerLoop is done. Some methods that require coroutine's end of frame(Texture2D.ReadPixels, ScreenCapture.CaptureScreenshotAsTexture, CommandBuffer, etc) do not work correctly when replaced with async/await. In these cases, pass MonoBehaviour(coroutine runnner) to UniTask.WaitForEndOfFrame. For example, await UniTask.WaitForEndOfFrame(this); is lightweight allocation free alternative of yield return new WaitForEndOfFrame().

Note: In Unity 2023.1 or newer, await UniTask.WaitForEndOfFrame(); no longer requires MonoBehaviour. It uses UnityEngine.Awaitable.EndOfFrameAsync.

yield return null and UniTask.Yield are similar but different. yield return null always returns next frame but UniTask.Yield returns next called. That is, call UniTask.Yield(PlayerLoopTiming.Update) on PreUpdate, it returns same frame. UniTask.NextFrame() guarantees return next frame, you can expect this to behave exactly the same as yield return null.

UniTask.Yield(without CancellationToken) is a special type, returns YieldAwaitable and runs on YieldRunner. It is the most lightweight and fastest.

AsyncOperation is returned from native timing. For example, await SceneManager.LoadSceneAsync is returned from EarlyUpdate.UpdatePreloading and after being called, the loaded scene's Start is called from EarlyUpdate.ScriptRunDelayedStartupFrame. Also await UnityWebRequest is returned from EarlyUpdate.ExecuteMainThreadJobs.

In UniTask, await directly uses native timing, while WithCancellation and ToUniTask use specified timing. This is usually not a particular problem, but with LoadSceneAsync, it causes a different order of Start and continuation after await. So it is recommended not to use LoadSceneAsync.ToUniTask.

Note: When using Unity 2023.1 or newer, ensure you have using UnityEngine; in the using statements of your file when working with new UnityEngine.Awaitable methods like SceneManager.LoadSceneAsync. This prevents compilation errors by avoiding the use of the UnityEngine.AsyncOperation version.

In the stacktrace, you can check where it is running in playerloop.

image

By default, UniTask's PlayerLoop is initialized at [RuntimeInitializeOnLoadMethod(RuntimeInitializeLoadType.BeforeSceneLoad)].

The order in which methods are called in BeforeSceneLoad is nondeterministic, so if you want to use UniTask in other BeforeSceneLoad methods, you should try to initialize it before this.

// AfterAssembliesLoaded is called before BeforeSceneLoad
[RuntimeInitializeOnLoadMethod(RuntimeInitializeLoadType.AfterAssembliesLoaded)]
public static void InitUniTaskLoop()
{
    var loop = PlayerLoop.GetCurrentPlayerLoop();
    Cysharp.Threading.Tasks.PlayerLoopHelper.Initialize(ref loop);
}

If you import Unity's Entities package, that resets the custom player loop to default at BeforeSceneLoad and injects ECS's loop. When Unity calls ECS's inject method after UniTask's initialize method, UniTask will no longer work.

To solve this issue, you can re-initialize the UniTask PlayerLoop after ECS is initialized.

// Get ECS Loop.
var playerLoop = ScriptBehaviourUpdateOrder.CurrentPlayerLoop;

// Setup UniTask's PlayerLoop.
PlayerLoopHelper.Initialize(ref playerLoop);

You can diagnose whether UniTask's player loop is ready by calling PlayerLoopHelper.IsInjectedUniTaskPlayerLoop(). And also PlayerLoopHelper.DumpCurrentPlayerLoop logs all current playerloops to console.

void Start()
{
    UnityEngine.Debug.Log("UniTaskPlayerLoop ready? " + PlayerLoopHelper.IsInjectedUniTaskPlayerLoop());
    PlayerLoopHelper.DumpCurrentPlayerLoop();
}

You can optimize loop cost slightly by remove unuse PlayerLoopTiming injection. You can call PlayerLoopHelper.Initialize(InjectPlayerLoopTimings) on initialize.

var loop = PlayerLoop.GetCurrentPlayerLoop();
PlayerLoopHelper.Initialize(ref loop, InjectPlayerLoopTimings.Minimum); // minimum is Update | FixedUpdate | LastPostLateUpdate

InjectPlayerLoopTimings has three preset, All and Standard(All without last except LastPostLateUpdate), Minimum(Update | FixedUpdate | LastPostLateUpdate). Default is All and you can combine custom inject timings like InjectPlayerLoopTimings.Update | InjectPlayerLoopTimings.FixedUpdate | InjectPlayerLoopTimings.PreLateUpdate.

You can make error to use uninjected PlayerLoopTiming by Microsoft.CodeAnalysis.BannedApiAnalyzers. For example, you can setup BannedSymbols.txt like this for InjectPlayerLoopTimings.Minimum.

F:Cysharp.Threading.Tasks.PlayerLoopTiming.Initialization; Isn't injected this PlayerLoop in this project.
F:Cysharp.Threading.Tasks.PlayerLoopTiming.LastInitialization; Isn't injected this PlayerLoop in this project.
F:Cysharp.Threading.Tasks.PlayerLoopTiming.EarlyUpdate; Isn't injected this PlayerLoop in this project.
F:Cysharp.Threading.Tasks.PlayerLoopTiming.LastEarlyUpdate; Isn't injected this PlayerLoop in this project.d
F:Cysharp.Threading.Tasks.PlayerLoopTiming.LastFixedUpdate; Isn't injected this PlayerLoop in this project.
F:Cysharp.Threading.Tasks.PlayerLoopTiming.PreUpdate; Isn't injected this PlayerLoop in this project.
F:Cysharp.Threading.Tasks.PlayerLoopTiming.LastPreUpdate; Isn't injected this PlayerLoop in this project.
F:Cysharp.Threading.Tasks.PlayerLoopTiming.LastUpdate; Isn't injected this PlayerLoop in this project.
F:Cysharp.Threading.Tasks.PlayerLoopTiming.PreLateUpdate; Isn't injected this PlayerLoop in this project.
F:Cysharp.Threading.Tasks.PlayerLoopTiming.LastPreLateUpdate; Isn't injected this PlayerLoop in this project.
F:Cysharp.Threading.Tasks.PlayerLoopTiming.PostLateUpdate; Isn't injected this PlayerLoop in this project.
F:Cysharp.Threading.Tasks.PlayerLoopTiming.TimeUpdate; Isn't injected this PlayerLoop in this project.
F:Cysharp.Threading.Tasks.PlayerLoopTiming.LastTimeUpdate; Isn't injected this PlayerLoop in this project.

You can configure RS0030 severity to error.

image

async void vs async UniTaskVoid

async void is a standard C# task system so it does not run on UniTask systems. It is better not to use it. async UniTaskVoid is a lightweight version of async UniTask because it does not have awaitable completion and reports errors immediately to UniTaskScheduler.UnobservedTaskException. If you don't require awaiting (fire and forget), using UniTaskVoid is better. Unfortunately to dismiss warning, you're required to call Forget().

public async UniTaskVoid FireAndForgetMethod()
{
    // do anything...
    await UniTask.Yield();
}

public void Caller()
{
    FireAndForgetMethod().Forget();
}

Also UniTask has the Forget method, it is similar to UniTaskVoid and has the same effects. However UniTaskVoid is more efficient if you completely don't use await

public async UniTask DoAsync()
{
    // do anything...
    await UniTask.Yield();
}

public void Caller()
{
    DoAsync().Forget();
}

To use an async lambda registered to an event, don't use async void. Instead you can use UniTask.Action or UniTask.UnityAction, both of which create a delegate via async UniTaskVoid lambda.

Action actEvent;
UnityAction unityEvent; // especially used in uGUI

// Bad: async void
actEvent += async () => { };
unityEvent += async () => { };

// Ok: create Action delegate by lambda
actEvent += UniTask.Action(async () => { await UniTask.Yield(); });
unityEvent += UniTask.UnityAction(async () => { await UniTask.Yield(); });

UniTaskVoid can also be used in MonoBehaviour's Start method.

class Sample : MonoBehaviour
{
    async UniTaskVoid Start()
    {
        // async init code.
    }
}

UniTaskTracker

useful for checking (leaked) UniTasks. You can open tracker window in Window -> UniTask Tracker.

image

UniTaskTracker is intended for debugging use only as enabling tracking and capturing stacktraces is useful but has a heavy performance impact. Recommended usage is to enable both tracking and stacktraces to find task leaks and to disable them both when done.

External Assets

By default, UniTask supports TextMeshPro(BindTo(TMP_Text) and TMP_InputField event extensions like standard uGUI InputField), DOTween(Tween as awaitable) and Addressables(AsyncOperationHandle and AsyncOperationHandle<T> as awaitable).

There are defined in separated asmdefs like UniTask.TextMeshPro, UniTask.DOTween, UniTask.Addressables.

TextMeshPro and Addressables support are automatically enabled when importing their packages from package manager. However for DOTween support, after importing from the DOTWeen assets and define the scripting define symbol UNITASK_DOTWEEN_SUPPORT to enable it.

// sequential
await transform.DOMoveX(2, 10);
await transform.DOMoveZ(5, 20);

// parallel with cancellation
var ct = this.GetCancellationTokenOnDestroy();

await UniTask.WhenAll(
    transform.DOMoveX(10, 3).WithCancellation(ct),
    transform.DOScale(10, 3).WithCancellation(ct));

DOTween support's default behaviour(await, WithCancellation, ToUniTask) awaits tween is killed. It works on both Complete(true/false) and Kill(true/false). But if you want to reuse tweens (SetAutoKill(false)), it does not work as expected. If you want to await for another timing, the following extension methods exist in Tween, AwaitForComplete, AwaitForPause, AwaitForPlay, AwaitForRewind, AwaitForStepComplete.

AsyncEnumerable and Async LINQ

Unity 2020.2 supports C# 8.0 so you can use await foreach. This is the new Update notation in the async era.

// Unity 2020.2, C# 8.0
await foreach (var _ in UniTaskAsyncEnumerable.EveryUpdate().WithCancellation(token))
{
    Debug.Log("Update() " + Time.frameCount);
}

In a C# 7.3 environment, you can use the ForEachAsync method to work in almost the same way.

// C# 7.3(Unity 2018.3~)
await UniTaskAsyncEnumerable.EveryUpdate().ForEachAsync(_ =>
{
    Debug.Log("Update() " + Time.frameCount);
}, token);

UniTask.WhenEach that is similar to .NET 9's Task.WhenEach can consume new way for await multiple tasks.

await foreach (var result in UniTask.WhenEach(task1, task2, task3))
{
    // The result is of type WhenEachResult<T>.
    // It contains either `T Result` or `Exception Exception`.
    // You can check `IsCompletedSuccessfully` or `IsFaulted` to determine whether to access `.Result` or `.Exception`.
    // If you want to throw an exception when `IsFaulted` and retrieve the result when successful, use `GetResult()`.
    Debug.Log(result.GetResult());
}

UniTaskAsyncEnumerable implements asynchronous LINQ, similar to LINQ in IEnumerable<T> or Rx in IObservable<T>. All standard LINQ query operators can be applied to asynchronous streams. For example, the following code shows how to apply a Where filter to a button-click asynchronous stream that runs once every two clicks.

await okButton.OnClickAsAsyncEnumerable().Where((x, i) => i % 2 == 0).ForEachAsync(_ =>
{
});

Fire and Forget style(for example, event handling), you can also use Subscribe.

okButton.OnClickAsAsyncEnumerable().Where((x, i) => i % 2 == 0).Subscribe(_ =>
{
});

Async LINQ is enabled when using Cysharp.Threading.Tasks.Linq;, and UniTaskAsyncEnumerable is defined in UniTask.Linq asmdef.

It's closer to UniRx (Reactive Extensions), but UniTaskAsyncEnumerable is a pull-based asynchronous stream, whereas Rx was a push-based asynchronous stream. Note that although similar, the characteristics are different and the details behave differently along with them.

UniTaskAsyncEnumerable is the entry point like Enumerable. In addition to the standard query operators, there are other generators for Unity such as EveryUpdate, Timer, TimerFrame, Interval, IntervalFrame, and EveryValueChanged. And also added additional UniTask original query operators like Append, Prepend, DistinctUntilChanged, ToHashSet, Buffer, CombineLatest,Merge Do, Never, ForEachAsync, Pairwise, Publish, Queue, Return, SkipUntil, TakeUntil, SkipUntilCanceled, TakeUntilCanceled, TakeLast, Subscribe.

The method with Func as an argument has three additional overloads, ***Await, ***AwaitWithCancellation.

Select(Func<T, TR> selector)
SelectAwait(Func<T, UniTask<TR>> selector)
SelectAwaitWithCancellation(Func<T, CancellationToken, UniTask<TR>> selector)

If you want to use the async method inside the func, use the ***Await or ***AwaitWithCancellation.

How to create an async iterator: C# 8.0 supports async iterator(async yield return) but it only allows IAsyncEnumerable<T> and of course requires C# 8.0. UniTask supports UniTaskAsyncEnumerable.Create method to create custom async iterator.

// IAsyncEnumerable, C# 8.0 version of async iterator. ( do not use this style, IAsyncEnumerable is not controled in UniTask).
public async IAsyncEnumerable<int> MyEveryUpdate([EnumeratorCancellation]CancellationToken cancelationToken = default)
{
    var frameCount = 0;
    await UniTask.Yield();
    while (!token.IsCancellationRequested)
    {
        yield return frameCount++;
        await UniTask.Yield();
    }
}

// UniTaskAsyncEnumerable.Create and use `await writer.YieldAsync` instead of `yield return`.
public IUniTaskAsyncEnumerable<int> MyEveryUpdate()
{
    // writer(IAsyncWriter<T>) has `YieldAsync(value)` method.
    return UniTaskAsyncEnumerable.Create<int>(async (writer, token) =>
    {
        var frameCount = 0;
        await UniTask.Yield();
        while (!token.IsCancellationRequested)
        {
            await writer.YieldAsync(frameCount++); // instead of `yield return`
            await UniTask.Yield();
        }
    });
}

Awaitable Events

All uGUI component implements ***AsAsyncEnumerable to convert asynchronous streams of events.

async UniTask TripleClick()
{
    // In default, used button.GetCancellationTokenOnDestroy to manage lieftime of async
    await button.OnClickAsync();
    await button.OnClickAsync();
    await button.OnClickAsync();
    Debug.Log("Three times clicked");
}

// more efficient way
async UniTask TripleClick()
{
    using (var handler = button.GetAsyncClickEventHandler())
    {
        await handler.OnClickAsync();
        await handler.OnClickAsync();
        await handler.OnClickAsync();
        Debug.Log("Three times clicked");
    }
}

// use async LINQ
async UniTask TripleClick(CancellationToken token)
{
    await button.OnClickAsAsyncEnumerable().Take(3).Last();
    Debug.Log("Three times clicked");
}

// use async LINQ2
async UniTask TripleClick(CancellationToken token)
{
    await button.OnClickAsAsyncEnumerable().Take(3).ForEachAsync(_ =>
    {
        Debug.Log("Every clicked");
    });
    Debug.Log("Three times clicked, complete.");
}

All MonoBehaviour message events can convert async-streams by AsyncTriggers that can be enabled by using Cysharp.Threading.Tasks.Triggers;. AsyncTrigger can be created using GetAsync***Trigger and triggers itself as UniTaskAsyncEnumerable.

var trigger = this.GetOnCollisionEnterAsyncHandler();
await trigger.OnCollisionEnterAsync();
await trigger.OnCollisionEnterAsync();
await trigger.OnCollisionEnterAsync();

// every moves.
await this.GetAsyncMoveTrigger().ForEachAsync(axisEventData =>
{
});

AsyncReactiveProperty, AsyncReadOnlyReactiveProperty is UniTask's version of ReactiveProperty. BindTo extension method of IUniTaskAsyncEnumerable<T> for binding asynchronous stream values to Unity components(Text/Selectable/TMP/Text).

var rp = new AsyncReactiveProperty<int>(99);

// AsyncReactiveProperty itself is IUniTaskAsyncEnumerable, you can query by LINQ
rp.ForEachAsync(x =>
{
    Debug.Log(x);
}, this.GetCancellationTokenOnDestroy()).Forget();

rp.Value = 10; // push 10 to all subscriber
rp.Value = 11; // push 11 to all subscriber

// WithoutCurrent ignore initial value
// BindTo bind stream value to unity components.
rp.WithoutCurrent().BindTo(this.textComponent);

await rp.WaitAsync(); // wait until next value set

// also exists ToReadOnlyAsyncReactiveProperty
var rp2 = new AsyncReactiveProperty<int>(99);
var rorp = rp.CombineLatest(rp2, (x, y) => (x, y)).ToReadOnlyAsyncReactiveProperty(CancellationToken.None);

A pull-type asynchronous stream does not get the next values until the asynchronous processing in the sequence is complete. This could spill data from push-type events such as buttons.

// can not get click event during 3 seconds complete.
await button.OnClickAsAsyncEnumerable().ForEachAwaitAsync(async x =>
{
    await UniTask.Delay(TimeSpan.FromSeconds(3));
});

It is useful (prevent double-click) but not useful sometimes.

Using the Queue() method will also queue events during asynchronous processing.

// queued message in asynchronous processing
await button.OnClickAsAsyncEnumerable().Queue().ForEachAwaitAsync(async x =>
{
    await UniTask.Delay(TimeSpan.FromSeconds(3));
});

Or use Subscribe, fire and forget style.

button.OnClickAsAsyncEnumerable().Subscribe(async x =>
{
    await UniTask.Delay(TimeSpan.FromSeconds(3));
});

Channel

Channel is the same as System.Threading.Tasks.Channels which is similar to a GoLang Channel.

Currently it only supports multiple-producer, single-consumer unbounded channels. It can create by Channel.CreateSingleConsumerUnbounded<T>().

For producer(.Writer), use TryWrite to push value and TryComplete to complete channel. For consumer(.Reader), use TryRead, WaitToReadAsync, ReadAsync, Completion and ReadAllAsync to read queued messages.

ReadAllAsync returns IUniTaskAsyncEnumerable<T> so query LINQ operators. Reader only allows single-consumer but uses .Publish() query operator to enable multicast message. For example, make pub/sub utility.

public class AsyncMessageBroker<T> : IDisposable
{
    Channel<T> channel;

    IConnectableUniTaskAsyncEnumerable<T> multicastSource;
    IDisposable connection;

    public AsyncMessageBroker()
    {
        channel = Channel.CreateSingleConsumerUnbounded<T>();
        multicastSource = channel.Reader.ReadAllAsync().Publish();
        connection = multicastSource.Connect(); // Publish returns IConnectableUniTaskAsyncEnumerable.
    }

    public void Publish(T value)
    {
        channel.Writer.TryWrite(value);
    }

    public IUniTaskAsyncEnumerable<T> Subscribe()
    {
        return multicastSource;
    }

    public void Dispose()
    {
        channel.Writer.TryComplete();
        connection.Dispose();
    }
}

vs Awaitable

Unity 6 introduces the awaitable type, Awaitable. To put it simply, Awaitable can be considered a subset of UniTask, and in fact, Awaitable's design was influenced by UniTask. It should be able to handle PlayerLoop-based awaits, pooled Tasks, and support for cancellation with CancellationToken in a similar way. With its inclusion in the standard library, you may wonder whether to continue using UniTask or migrate to Awaitable. Here's a brief guide.

First, the functionality provided by Awaitable is equivalent to what coroutines offer. Instead of yield return, you use await; await NextFrameAsync() replaces yield return null; and there are equivalents for WaitForSeconds and EndOfFrame. However, that's the extent of it. Being coroutine-based in terms of functionality, it lacks Task-based features. In practical application development using async/await, operations like WhenAll are essential. Additionally, UniTask enables many frame-based operations (such as DelayFrame) and more flexible PlayerLoopTiming control, which are not available in Awaitable. Of course, there's no Tracker Window either.

Therefore, I recommend using UniTask for application development. UniTask is a superset of Awaitable and includes many essential features. For library development, where you want to avoid external dependencies, using Awaitable as a return type for methods would be appropriate. Awaitable can be converted to UniTask using AsUniTask, so there's no issue in handling Awaitable-based functionality within the UniTask library. Of course, if you don't need to worry about dependencies, using UniTask would be the best choice even for library development.

For Unit Testing

Unity's [UnityTest] attribute can test coroutine(IEnumerator) but can not test async. UniTask.ToCoroutine bridges async/await to coroutine so you can test async methods.

[UnityTest]
public IEnumerator DelayIgnore() => UniTask.ToCoroutine(async () =>
{
    var time = Time.realtimeSinceStartup;

    Time.timeScale = 0.5f;
    try
    {
        await UniTask.Delay(TimeSpan.FromSeconds(3), ignoreTimeScale: true);

        var elapsed = Time.realtimeSinceStartup - time;
        Assert.AreEqual(3, (int)Math.Round(TimeSpan.FromSeconds(elapsed).TotalSeconds, MidpointRounding.ToEven));
    }
    finally
    {
        Time.timeScale = 1.0f;
    }
});

UniTask's own unit tests are written using Unity Test Runner and Cysharp/RuntimeUnitTestToolkit to integrate with CI and check if IL2CPP is working.

ThreadPool limitation

Most UniTask methods run on a single thread (PlayerLoop), with only UniTask.Run(Task.Run equivalent) and UniTask.SwitchToThreadPool running on a thread pool. If you use a thread pool, it won't work with WebGL and so on.

UniTask.Run is now deprecated. You can use UniTask.RunOnThreadPool instead. And also consider whether you can use UniTask.Create or UniTask.Void.

IEnumerator.ToUniTask limitation

You can convert coroutine(IEnumerator) to UniTask(or await directly) but it has some limitations.

If you want fully compatible conversion from coroutine to async, use the IEnumerator.ToUniTask(MonoBehaviour coroutineRunner) overload. It executes StartCoroutine on an instance of the argument MonoBehaviour and waits for it to complete in UniTask.

For UnityEditor

UniTask can run on Unity Editor like an Editor Coroutine. However, there are some limitations.

Compare with Standard Task API

UniTask has many standard Task-like APIs. This table shows what the alternative apis are.

Use standard type.

.NET TypeUniTask Type
IProgress<T>---
CancellationToken---
CancellationTokenSource---

Use UniTask type.

.NET TypeUniTask Type
Task/ValueTaskUniTask
Task<T>/ValueTask<T>UniTask<T>
async voidasync UniTaskVoid
+= async () => { }UniTask.Void, UniTask.Action, UniTask.UnityAction
---UniTaskCompletionSource
TaskCompletionSource<T>UniTaskCompletionSource<T>/AutoResetUniTaskCompletionSource<T>
ManualResetValueTaskSourceCore<T>UniTaskCompletionSourceCore<T>
IValueTaskSourceIUniTaskSource
IValueTaskSource<T>IUniTaskSource<T>
ValueTask.IsCompletedUniTask.Status.IsCompleted()
ValueTask<T>.IsCompletedUniTask<T>.Status.IsCompleted()
new Progress<T>Progress.Create<T>
CancellationToken.Register(UnsafeRegister)CancellationToken.RegisterWithoutCaptureExecutionContext
CancellationTokenSource.CancelAfterCancellationTokenSource.CancelAfterSlim
Channel.CreateUnbounded<T>(false){ SingleReader = true }Channel.CreateSingleConsumerUnbounded<T>
IAsyncEnumerable<T>IUniTaskAsyncEnumerable<T>
IAsyncEnumerator<T>IUniTaskAsyncEnumerator<T>
IAsyncDisposableIUniTaskAsyncDisposable
Task.DelayUniTask.Delay
Task.YieldUniTask.Yield
Task.RunUniTask.RunOnThreadPool
Task.WhenAllUniTask.WhenAll
Task.WhenAnyUniTask.WhenAny
Task.WhenEachUniTask.WhenEach
Task.CompletedTaskUniTask.CompletedTask
Task.FromExceptionUniTask.FromException
Task.FromResultUniTask.FromResult
Task.FromCanceledUniTask.FromCanceled
Task.ContinueWithUniTask.ContinueWith
TaskScheduler.UnobservedTaskExceptionUniTaskScheduler.UnobservedTaskException

Pooling Configuration

UniTask aggressively caches async promise objects to achieve zero allocation (for technical details, see blog post UniTask v2 — Zero Allocation async/await for Unity, with Asynchronous LINQ). By default, it caches all promises but you can configure TaskPool.SetMaxPoolSize to your value, the value indicates cache size per type. TaskPool.GetCacheSizeInfo returns currently cached objects in pool.

foreach (var (type, size) in TaskPool.GetCacheSizeInfo())
{
    Debug.Log(type + ":" + size);
}

Allocation on Profiler

In UnityEditor the profiler shows allocation of compiler generated AsyncStateMachine but it only occurs in debug(development) build. C# Compiler generates AsyncStateMachine as class on Debug build and as struct on Release build.

Unity supports Code Optimization option starting in 2020.1 (right, footer).

You can change C# compiler optimization to release to remove AsyncStateMachine allocation in development builds. This optimization option can also be set via Compilation.CompilationPipeline-codeOptimization, and Compilation.CodeOptimization.

UniTaskSynchronizationContext

Unity's default SynchronizationContext(UnitySynchronizationContext) is a poor implementation for performance. UniTask bypasses SynchronizationContext(and ExecutionContext) so it does not use it but if exists in async Task, still used it. UniTaskSynchronizationContext is a replacement of UnitySynchronizationContext which is better for performance.

public class SyncContextInjecter
{
    [RuntimeInitializeOnLoadMethod(RuntimeInitializeLoadType.SubsystemRegistration)]
    public static void Inject()
    {
        SynchronizationContext.SetSynchronizationContext(new UniTaskSynchronizationContext());
    }
}

This is an optional choice and is not always recommended; UniTaskSynchronizationContext is less performant than async UniTask and is not a complete UniTask replacement. It also does not guarantee full behavioral compatibility with the UnitySynchronizationContext.

API References

UniTask's API References are hosted at cysharp.github.io/UniTask by DocFX and Cysharp/DocfXTemplate.

For example, UniTask's factory methods can be seen at UniTask#methods. UniTaskAsyncEnumerable's factory/extension methods can be seen at UniTaskAsyncEnumerable#methods.

UPM Package

Install via git URL

Requires a version of unity that supports path query parameter for git packages (Unity >= 2019.3.4f1, Unity >= 2020.1a21). You can add https://github.com/Cysharp/UniTask.git?path=src/UniTask/Assets/Plugins/UniTask to Package Manager

image

image

or add "com.cysharp.unitask": "https://github.com/Cysharp/UniTask.git?path=src/UniTask/Assets/Plugins/UniTask" to Packages/manifest.json.

If you want to set a target version, UniTask uses the *.*.* release tag so you can specify a version like #2.1.0. For example https://github.com/Cysharp/UniTask.git?path=src/UniTask/Assets/Plugins/UniTask#2.1.0.

.NET Core

For .NET Core, use NuGet.

PM> Install-Package UniTask

UniTask of .NET Core version is a subset of Unity UniTask with PlayerLoop dependent methods removed.

It runs at higher performance than the standard Task/ValueTask, but you should be careful to ignore the ExecutionContext/SynchronizationContext when using it. AsyncLocal also does not work because it ignores ExecutionContext.

If you use UniTask internally, but provide ValueTask as an external API, you can write it like the following(Inspired by PooledAwait).

public class ZeroAllocAsyncAwaitInDotNetCore
{
    public ValueTask<int> DoAsync(int x, int y)
    {
        return Core(this, x, y);

        static async UniTask<int> Core(ZeroAllocAsyncAwaitInDotNetCore self, int x, int y)
        {
            // do anything...
            await Task.Delay(TimeSpan.FromSeconds(x + y));
            await UniTask.Yield();

            return 10;
        }
    }
}

// UniTask does not return to original SynchronizationContext but you can use helper `ReturnToCurrentSynchronizationContext`.
public ValueTask TestAsync()
{
    await using (UniTask.ReturnToCurrentSynchronizationContext())
    {
        await UniTask.SwitchToThreadPool();
        // do anything..
    }
}

.NET Core version is intended to allow users to use UniTask as an interface when sharing code with Unity (such as Cysharp/MagicOnion). .NET Core version of UniTask enables smooth code sharing.

Utility methods such as WhenAll which are equivalent to UniTask are provided as Cysharp/ValueTaskSupplement.

License

This library is under the MIT License.