public void TestHealthDisplayIncrementing()
{
AddRepeatStep(@"decrease hp", delegate
{
healthProcessor.Health.Value -= 0.08f;
}, 10);
AddRepeatStep(@"increase hp without flash", delegate
{
healthProcessor.Health.Value += 0.1f;
}, 3);
AddRepeatStep(@"increase hp with flash", delegate
{
healthProcessor.Health.Value += 0.1f;
healthProcessor.ApplyResult(new JudgementResult(new HitCircle(), new OsuJudgement())
{
Type = HitResult.Perfect
});
}, 3);
}
private void load(AudioManager audio, OsuConfigManager config, OsuGame game)
{
Mods.Value = base.Mods.Value.Select(m => m.CreateCopy()).ToArray();
if (Beatmap.Value is DummyWorkingBeatmap)
{
return;
}
IBeatmap playableBeatmap = loadPlayableBeatmap();
if (playableBeatmap == null)
{
return;
}
sampleRestart = audio.Samples.Get(@"Gameplay/restart");
mouseWheelDisabled = config.GetBindable <bool>(OsuSetting.MouseDisableWheel);
if (game != null)
{
LocalUserPlaying.BindTo(game.LocalUserPlaying);
}
DrawableRuleset = ruleset.CreateDrawableRulesetWith(playableBeatmap, Mods.Value);
ScoreProcessor = ruleset.CreateScoreProcessor();
ScoreProcessor.ApplyBeatmap(playableBeatmap);
ScoreProcessor.Mods.BindTo(Mods);
HealthProcessor = ruleset.CreateHealthProcessor(playableBeatmap.HitObjects[0].StartTime);
HealthProcessor.ApplyBeatmap(playableBeatmap);
if (!ScoreProcessor.Mode.Disabled)
{
config.BindWith(OsuSetting.ScoreDisplayMode, ScoreProcessor.Mode);
}
InternalChild = GameplayClockContainer = CreateGameplayClockContainer(Beatmap.Value, DrawableRuleset.GameplayStartTime);
AddInternal(gameplayBeatmap = new GameplayBeatmap(playableBeatmap));
AddInternal(screenSuspension = new ScreenSuspensionHandler(GameplayClockContainer));
dependencies.CacheAs(gameplayBeatmap);
var beatmapSkinProvider = new BeatmapSkinProvidingContainer(Beatmap.Value.Skin);
// the beatmapSkinProvider is used as the fallback source here to allow the ruleset-specific skin implementation
// full access to all skin sources.
var rulesetSkinProvider = new SkinProvidingContainer(ruleset.CreateLegacySkinProvider(beatmapSkinProvider, playableBeatmap));
// load the skinning hierarchy first.
// this is intentionally done in two stages to ensure things are in a loaded state before exposing the ruleset to skin sources.
GameplayClockContainer.Add(beatmapSkinProvider.WithChild(rulesetSkinProvider));
rulesetSkinProvider.AddRange(new[]
{
// underlay and gameplay should have access the to skinning sources.
createUnderlayComponents(),
createGameplayComponents(Beatmap.Value, playableBeatmap)
});
// also give the HUD a ruleset container to allow rulesets to potentially override HUD elements (used to disable combo counters etc.)
// we may want to limit this in the future to disallow rulesets from outright replacing elements the user expects to be there.
var hudRulesetContainer = new SkinProvidingContainer(ruleset.CreateLegacySkinProvider(beatmapSkinProvider, playableBeatmap));
// add the overlay components as a separate step as they proxy some elements from the above underlay/gameplay components.
GameplayClockContainer.Add(hudRulesetContainer.WithChild(createOverlayComponents(Beatmap.Value)));
if (!DrawableRuleset.AllowGameplayOverlays)
{
HUDOverlay.ShowHud.Value = false;
HUDOverlay.ShowHud.Disabled = true;
BreakOverlay.Hide();
skipOverlay.Hide();
}
DrawableRuleset.FrameStableClock.WaitingOnFrames.BindValueChanged(waiting =>
{
if (waiting.NewValue)
{
GameplayClockContainer.Stop();
}
else
{
GameplayClockContainer.Start();
}
});
DrawableRuleset.IsPaused.BindValueChanged(paused =>
{
updateGameplayState();
updateSampleDisabledState();
});
DrawableRuleset.FrameStableClock.IsCatchingUp.BindValueChanged(_ => updateSampleDisabledState());
DrawableRuleset.HasReplayLoaded.BindValueChanged(_ => updateGameplayState());
DrawableRuleset.HasReplayLoaded.BindValueChanged(_ => updatePauseOnFocusLostState(), true);
// bind clock into components that require it
DrawableRuleset.IsPaused.BindTo(GameplayClockContainer.IsPaused);
DrawableRuleset.NewResult += r =>
{
HealthProcessor.ApplyResult(r);
ScoreProcessor.ApplyResult(r);
gameplayBeatmap.ApplyResult(r);
};
DrawableRuleset.RevertResult += r =>
{
HealthProcessor.RevertResult(r);
ScoreProcessor.RevertResult(r);
};
// Bind the judgement processors to ourselves
ScoreProcessor.HasCompleted.ValueChanged += updateCompletionState;
HealthProcessor.Failed += onFail;
foreach (var mod in Mods.Value.OfType <IApplicableToScoreProcessor>())
{
mod.ApplyToScoreProcessor(ScoreProcessor);
}
foreach (var mod in Mods.Value.OfType <IApplicableToHealthProcessor>())
{
mod.ApplyToHealthProcessor(HealthProcessor);
}
IsBreakTime.BindTo(breakTracker.IsBreakTime);
IsBreakTime.BindValueChanged(onBreakTimeChanged, true);
}
private void load(AudioManager audio, OsuConfigManager config)
{
Mods.Value = base.Mods.Value.Select(m => m.CreateCopy()).ToArray();
if (Beatmap.Value is DummyWorkingBeatmap)
{
return;
}
IBeatmap playableBeatmap = loadPlayableBeatmap();
if (playableBeatmap == null)
{
return;
}
sampleRestart = audio.Samples.Get(@"Gameplay/restart");
mouseWheelDisabled = config.GetBindable <bool>(OsuSetting.MouseDisableWheel);
DrawableRuleset = ruleset.CreateDrawableRulesetWith(playableBeatmap, Mods.Value);
ScoreProcessor = ruleset.CreateScoreProcessor();
ScoreProcessor.ApplyBeatmap(playableBeatmap);
ScoreProcessor.Mods.BindTo(Mods);
HealthProcessor = ruleset.CreateHealthProcessor(playableBeatmap.HitObjects[0].StartTime);
HealthProcessor.ApplyBeatmap(playableBeatmap);
if (!ScoreProcessor.Mode.Disabled)
{
config.BindWith(OsuSetting.ScoreDisplayMode, ScoreProcessor.Mode);
}
InternalChild = GameplayClockContainer = new GameplayClockContainer(Beatmap.Value, Mods.Value, DrawableRuleset.GameplayStartTime);
AddInternal(gameplayBeatmap = new GameplayBeatmap(playableBeatmap));
dependencies.CacheAs(gameplayBeatmap);
addUnderlayComponents(GameplayClockContainer);
addGameplayComponents(GameplayClockContainer, Beatmap.Value);
addOverlayComponents(GameplayClockContainer, Beatmap.Value);
DrawableRuleset.HasReplayLoaded.BindValueChanged(_ => updatePauseOnFocusLostState(), true);
// bind clock into components that require it
DrawableRuleset.IsPaused.BindTo(GameplayClockContainer.IsPaused);
DrawableRuleset.OnNewResult += r =>
{
HealthProcessor.ApplyResult(r);
ScoreProcessor.ApplyResult(r);
};
DrawableRuleset.OnRevertResult += r =>
{
HealthProcessor.RevertResult(r);
ScoreProcessor.RevertResult(r);
};
// Bind the judgement processors to ourselves
ScoreProcessor.AllJudged += onCompletion;
HealthProcessor.Failed += onFail;
foreach (var mod in Mods.Value.OfType <IApplicableToScoreProcessor>())
{
mod.ApplyToScoreProcessor(ScoreProcessor);
}
foreach (var mod in Mods.Value.OfType <IApplicableToHealthProcessor>())
{
mod.ApplyToHealthProcessor(HealthProcessor);
}
breakTracker.IsBreakTime.BindValueChanged(onBreakTimeChanged, true);
}
private void load(AudioManager audio, OsuConfigManager config, OsuGameBase game)
{
var gameplayMods = Mods.Value.Select(m => m.DeepClone()).ToArray();
if (Beatmap.Value is DummyWorkingBeatmap)
{
return;
}
IBeatmap playableBeatmap = loadPlayableBeatmap(gameplayMods);
if (playableBeatmap == null)
{
return;
}
sampleRestart = audio.Samples.Get(@"Gameplay/restart");
mouseWheelDisabled = config.GetBindable <bool>(OsuSetting.MouseDisableWheel);
if (game != null)
{
gameActive.BindTo(game.IsActive);
}
if (game is OsuGame osuGame)
{
LocalUserPlaying.BindTo(osuGame.LocalUserPlaying);
}
DrawableRuleset = ruleset.CreateDrawableRulesetWith(playableBeatmap, gameplayMods);
dependencies.CacheAs(DrawableRuleset);
ScoreProcessor = ruleset.CreateScoreProcessor();
ScoreProcessor.ApplyBeatmap(playableBeatmap);
ScoreProcessor.Mods.Value = gameplayMods;
dependencies.CacheAs(ScoreProcessor);
HealthProcessor = ruleset.CreateHealthProcessor(playableBeatmap.HitObjects[0].StartTime);
HealthProcessor.ApplyBeatmap(playableBeatmap);
dependencies.CacheAs(HealthProcessor);
if (!ScoreProcessor.Mode.Disabled)
{
config.BindWith(OsuSetting.ScoreDisplayMode, ScoreProcessor.Mode);
}
InternalChild = GameplayClockContainer = CreateGameplayClockContainer(Beatmap.Value, DrawableRuleset.GameplayStartTime);
AddInternal(screenSuspension = new ScreenSuspensionHandler(GameplayClockContainer));
Score = CreateScore(playableBeatmap);
// ensure the score is in a consistent state with the current player.
Score.ScoreInfo.BeatmapInfo = Beatmap.Value.BeatmapInfo;
Score.ScoreInfo.Ruleset = ruleset.RulesetInfo;
if (ruleset.RulesetInfo.ID != null)
{
Score.ScoreInfo.RulesetID = ruleset.RulesetInfo.ID.Value;
}
Score.ScoreInfo.Mods = gameplayMods;
dependencies.CacheAs(GameplayState = new GameplayState(playableBeatmap, ruleset, gameplayMods, Score));
var rulesetSkinProvider = new RulesetSkinProvidingContainer(ruleset, playableBeatmap, Beatmap.Value.Skin);
// load the skinning hierarchy first.
// this is intentionally done in two stages to ensure things are in a loaded state before exposing the ruleset to skin sources.
GameplayClockContainer.Add(rulesetSkinProvider);
rulesetSkinProvider.AddRange(new Drawable[]
{
failAnimationLayer = new FailAnimation(DrawableRuleset)
{
OnComplete = onFailComplete,
Children = new[]
{
// underlay and gameplay should have access to the skinning sources.
createUnderlayComponents(),
createGameplayComponents(Beatmap.Value, playableBeatmap)
}
},
FailOverlay = new FailOverlay
{
OnRetry = Restart,
OnQuit = () => PerformExit(true),
},
new HotkeyExitOverlay
{
Action = () =>
{
if (!this.IsCurrentScreen())
{
return;
}
fadeOut(true);
PerformExit(false);
},
},
});
if (Configuration.AllowRestart)
{
rulesetSkinProvider.Add(new HotkeyRetryOverlay
{
Action = () =>
{
if (!this.IsCurrentScreen())
{
return;
}
fadeOut(true);
Restart();
},
});
}
// add the overlay components as a separate step as they proxy some elements from the above underlay/gameplay components.
// also give the overlays the ruleset skin provider to allow rulesets to potentially override HUD elements (used to disable combo counters etc.)
// we may want to limit this in the future to disallow rulesets from outright replacing elements the user expects to be there.
failAnimationLayer.Add(createOverlayComponents(Beatmap.Value));
if (!DrawableRuleset.AllowGameplayOverlays)
{
HUDOverlay.ShowHud.Value = false;
HUDOverlay.ShowHud.Disabled = true;
BreakOverlay.Hide();
}
DrawableRuleset.FrameStableClock.WaitingOnFrames.BindValueChanged(waiting =>
{
if (waiting.NewValue)
{
GameplayClockContainer.Stop();
}
else
{
GameplayClockContainer.Start();
}
});
DrawableRuleset.IsPaused.BindValueChanged(paused =>
{
updateGameplayState();
updateSampleDisabledState();
});
DrawableRuleset.FrameStableClock.IsCatchingUp.BindValueChanged(_ => updateSampleDisabledState());
DrawableRuleset.HasReplayLoaded.BindValueChanged(_ => updateGameplayState());
// bind clock into components that require it
DrawableRuleset.IsPaused.BindTo(GameplayClockContainer.IsPaused);
DrawableRuleset.NewResult += r =>
{
HealthProcessor.ApplyResult(r);
ScoreProcessor.ApplyResult(r);
GameplayState.ApplyResult(r);
};
DrawableRuleset.RevertResult += r =>
{
HealthProcessor.RevertResult(r);
ScoreProcessor.RevertResult(r);
};
DimmableStoryboard.HasStoryboardEnded.ValueChanged += storyboardEnded =>
{
if (storyboardEnded.NewValue)
{
progressToResults(true);
}
};
// Bind the judgement processors to ourselves
ScoreProcessor.HasCompleted.BindValueChanged(scoreCompletionChanged);
HealthProcessor.Failed += onFail;
// Provide judgement processors to mods after they're loaded so that they're on the gameplay clock,
// this is required for mods that apply transforms to these processors.
ScoreProcessor.OnLoadComplete += _ =>
{
foreach (var mod in gameplayMods.OfType <IApplicableToScoreProcessor>())
{
mod.ApplyToScoreProcessor(ScoreProcessor);
}
};
HealthProcessor.OnLoadComplete += _ =>
{
foreach (var mod in gameplayMods.OfType <IApplicableToHealthProcessor>())
{
mod.ApplyToHealthProcessor(HealthProcessor);
}
};
IsBreakTime.BindTo(breakTracker.IsBreakTime);
IsBreakTime.BindValueChanged(onBreakTimeChanged, true);
}