// Copyright (c) ppy Pty Ltd . Licensed under the MIT Licence. // See the LICENCE file in the repository root for full licence text. #nullable disable using System; using System.Collections.Generic; using System.Linq; using NUnit.Framework; using osu.Framework.Graphics; using osu.Framework.Graphics.Containers; using osu.Framework.Graphics.Shapes; using osu.Framework.Input.Bindings; using osu.Framework.Input.Events; using osu.Framework.Input.StateChanges; using osu.Framework.Logging; using osu.Framework.Testing; using osu.Framework.Timing; using osu.Game.Beatmaps; using osu.Game.Graphics.Sprites; using osu.Game.Online.Spectator; using osu.Game.Replays; using osu.Game.Replays.Legacy; using osu.Game.Rulesets; using osu.Game.Rulesets.Osu; using osu.Game.Rulesets.Replays; using osu.Game.Rulesets.Replays.Types; using osu.Game.Rulesets.UI; using osu.Game.Scoring; using osu.Game.Tests.Gameplay; using osu.Game.Tests.Mods; using osu.Game.Tests.Visual.Spectator; using osuTK; using osuTK.Graphics; namespace osu.Game.Tests.Visual.Gameplay { public partial class TestSceneSpectatorPlayback : OsuManualInputManagerTestScene { private TestRulesetInputManager playbackManager; private TestRulesetInputManager recordingManager; private Score recordingScore; private Replay playbackReplay; private TestSpectatorClient spectatorClient; private ManualClock manualClock; private TestReplayRecorder recorder; private OsuSpriteText latencyDisplay; private TestFramedReplayInputHandler replayHandler; [SetUpSteps] public void SetUpSteps() { AddStep("Setup containers", () => { recordingScore = new Score { ScoreInfo = { BeatmapInfo = new BeatmapInfo(), Ruleset = new OsuRuleset().RulesetInfo, } }; playbackReplay = new Replay(); manualClock = new ManualClock(); Child = new DependencyProvidingContainer { RelativeSizeAxes = Axes.Both, CachedDependencies = new[] { (typeof(SpectatorClient), (object)(spectatorClient = new TestSpectatorClient())), }, Children = new Drawable[] { spectatorClient, new GridContainer { RelativeSizeAxes = Axes.Both, Content = new[] { new Drawable[] { recordingManager = new TestRulesetInputManager(TestCustomisableModRuleset.CreateTestRulesetInfo(), 0, SimultaneousBindingMode.Unique) { Recorder = recorder = new TestReplayRecorder(recordingScore) { ScreenSpaceToGamefield = pos => recordingManager.ToLocalSpace(pos), }, Child = new Container { RelativeSizeAxes = Axes.Both, Children = new Drawable[] { new Box { Colour = Color4.Brown, RelativeSizeAxes = Axes.Both, }, new OsuSpriteText { Text = "Sending", Scale = new Vector2(3), Anchor = Anchor.Centre, Origin = Anchor.Centre, }, new TestInputConsumer() } }, } }, new Drawable[] { playbackManager = new TestRulesetInputManager(TestCustomisableModRuleset.CreateTestRulesetInfo(), 0, SimultaneousBindingMode.Unique) { Clock = new FramedClock(manualClock), ReplayInputHandler = replayHandler = new TestFramedReplayInputHandler(playbackReplay) { GamefieldToScreenSpace = pos => playbackManager.ToScreenSpace(pos), }, Child = new Container { RelativeSizeAxes = Axes.Both, Children = new Drawable[] { new Box { Colour = Color4.DarkBlue, RelativeSizeAxes = Axes.Both, }, new OsuSpriteText { Text = "Receiving", Scale = new Vector2(3), Anchor = Anchor.Centre, Origin = Anchor.Centre, }, new TestInputConsumer() } }, } } } }, latencyDisplay = new OsuSpriteText() } }; spectatorClient.BeginPlaying(TestGameplayState.Create(new OsuRuleset()), recordingScore); spectatorClient.OnNewFrames += onNewFrames; }); } [Test] public void TestBasic() { AddUntilStep("received frames", () => playbackReplay.Frames.Count > 50); AddStep("stop sending frames", () => recorder.Expire()); AddUntilStep("wait for all frames received", () => playbackReplay.Frames.Count == recorder.SentFrames.Count); } [Test] public void TestWithSendFailure() { AddUntilStep("received frames", () => playbackReplay.Frames.Count > 50); int framesReceivedSoFar = 0; int frameSendAttemptsSoFar = 0; AddStep("start failing sends", () => { spectatorClient.ShouldFailSendingFrames = true; frameSendAttemptsSoFar = spectatorClient.FrameSendAttempts; }); AddUntilStep("wait for next send attempt", () => { framesReceivedSoFar = playbackReplay.Frames.Count; return spectatorClient.FrameSendAttempts > frameSendAttemptsSoFar + 1; }); AddUntilStep("wait for more send attempts", () => spectatorClient.FrameSendAttempts > frameSendAttemptsSoFar + 10); AddAssert("frames did not increase", () => framesReceivedSoFar == playbackReplay.Frames.Count); AddStep("stop failing sends", () => spectatorClient.ShouldFailSendingFrames = false); AddUntilStep("wait for next frames", () => framesReceivedSoFar < playbackReplay.Frames.Count); AddStep("stop sending frames", () => recorder.Expire()); AddUntilStep("wait for all frames received", () => playbackReplay.Frames.Count == recorder.SentFrames.Count); AddAssert("ensure frames were received in the correct sequence", () => playbackReplay.Frames.Select(f => f.Time).SequenceEqual(recorder.SentFrames.Select(f => f.Time))); } private void onNewFrames(int userId, FrameDataBundle frames) { foreach (var legacyFrame in frames.Frames) { var frame = new TestReplayFrame(); frame.FromLegacy(legacyFrame, null); playbackReplay.Frames.Add(frame); } Logger.Log($"Received {frames.Frames.Count} new frames (total {playbackReplay.Frames.Count} of {recorder.SentFrames.Count})"); } private double latency = SpectatorClient.TIME_BETWEEN_SENDS; protected override void Update() { base.Update(); if (latencyDisplay == null) return; // propagate initial time value if (manualClock.CurrentTime == 0) { manualClock.CurrentTime = Time.Current; return; } if (!replayHandler.HasFrames) return; var lastFrame = playbackReplay.Frames.LastOrDefault(); // this isn't perfect as we basically can't be aware of the rate-of-send here (the streamer is not sending data when not being moved). // in gameplay playback, the case where NextFrame is null would pause gameplay and handle this correctly; it's strictly a test limitation / best effort implementation. if (lastFrame != null) latency = Math.Max(latency, Time.Current - lastFrame.Time); latencyDisplay.Text = $"latency: {latency:N1}"; double proposedTime = Time.Current - latency + Time.Elapsed; // this will either advance by one or zero frames. double? time = replayHandler.SetFrameFromTime(proposedTime); if (time == null) return; manualClock.CurrentTime = time.Value; } public class TestFramedReplayInputHandler : FramedReplayInputHandler { public TestFramedReplayInputHandler(Replay replay) : base(replay) { } protected override void CollectReplayInputs(List inputs) { inputs.Add(new MousePositionAbsoluteInput { Position = GamefieldToScreenSpace(CurrentFrame?.Position ?? Vector2.Zero) }); inputs.Add(new ReplayState { PressedActions = CurrentFrame?.Actions ?? new List() }); } } public partial class TestInputConsumer : CompositeDrawable, IKeyBindingHandler { public override bool ReceivePositionalInputAt(Vector2 screenSpacePos) => Parent.ReceivePositionalInputAt(screenSpacePos); private readonly Box box; public TestInputConsumer() { Size = new Vector2(30); Origin = Anchor.Centre; InternalChildren = new Drawable[] { box = new Box { Colour = Color4.Black, RelativeSizeAxes = Axes.Both, }, }; } protected override bool OnMouseMove(MouseMoveEvent e) { Position = e.MousePosition; return base.OnMouseMove(e); } public bool OnPressed(KeyBindingPressEvent e) { if (e.Repeat) return false; box.Colour = Color4.White; return true; } public void OnReleased(KeyBindingReleaseEvent e) { box.Colour = Color4.Black; } } public partial class TestRulesetInputManager : RulesetInputManager { public TestRulesetInputManager(RulesetInfo ruleset, int variant, SimultaneousBindingMode unique) : base(ruleset, variant, unique) { } protected override KeyBindingContainer CreateKeyBindingContainer(RulesetInfo ruleset, int variant, SimultaneousBindingMode unique) => new TestKeyBindingContainer(); internal partial class TestKeyBindingContainer : KeyBindingContainer { public override IEnumerable DefaultKeyBindings => new[] { new KeyBinding(InputKey.MouseLeft, TestAction.Down), }; } } public class TestReplayFrame : ReplayFrame, IConvertibleReplayFrame { public Vector2 Position; public List Actions = new List(); public TestReplayFrame(double time, Vector2 position, params TestAction[] actions) : base(time) { Position = position; Actions.AddRange(actions); } public TestReplayFrame() { } public void FromLegacy(LegacyReplayFrame currentFrame, IBeatmap beatmap, ReplayFrame lastFrame = null) { Position = currentFrame.Position; Time = currentFrame.Time; if (currentFrame.MouseLeft) Actions.Add(TestAction.Down); } public LegacyReplayFrame ToLegacy(IBeatmap beatmap) { ReplayButtonState state = ReplayButtonState.None; if (Actions.Contains(TestAction.Down)) state |= ReplayButtonState.Left1; return new LegacyReplayFrame(Time, Position.X, Position.Y, state); } } public enum TestAction { Down, } internal partial class TestReplayRecorder : ReplayRecorder { public List SentFrames = new List(); public TestReplayRecorder(Score score) : base(score) { } protected override ReplayFrame HandleFrame(Vector2 mousePosition, List actions, ReplayFrame previousFrame) { var testReplayFrame = new TestReplayFrame(Time.Current, mousePosition, actions.ToArray()); SentFrames.Add(testReplayFrame); return testReplayFrame; } } } }