// Copyright (c) 2007-2018 ppy Pty Ltd . // Licensed under the MIT Licence - https://raw.githubusercontent.com/ppy/osu/master/LICENCE using System; using System.Collections.Generic; using System.Linq; using osu.Framework.Allocation; using osu.Framework.Configuration; using osu.Framework.Graphics; using osu.Framework.Graphics.Containers; using osu.Framework.Input; using osu.Framework.Logging; using osu.Framework.MathUtils; using osu.Framework.Timing; using osu.Game.Beatmaps; using osu.Game.Rulesets.Edit.Tools; using osu.Game.Rulesets.Objects.Drawables; using osu.Game.Rulesets.UI; using osu.Game.Screens.Edit.Screens.Compose.Layers; using osu.Game.Screens.Edit.Screens.Compose.RadioButtons; namespace osu.Game.Rulesets.Edit { public abstract class HitObjectComposer : CompositeDrawable { private readonly Ruleset ruleset; protected ICompositionTool CurrentTool { get; private set; } private RulesetContainer rulesetContainer; private readonly List layerContainers = new List(); private readonly Bindable beatmap = new Bindable(); private IAdjustableClock sourceClock; private DecoupleableInterpolatingFramedClock adjustableClock; protected HitObjectComposer(Ruleset ruleset) { this.ruleset = ruleset; RelativeSizeAxes = Axes.Both; } [BackgroundDependencyLoader] private void load(OsuGameBase osuGame) { beatmap.BindTo(osuGame.Beatmap); try { rulesetContainer = CreateRulesetContainer(ruleset, beatmap.Value); // TODO: should probably be done at a RulesetContainer level to share logic with Player. sourceClock = (IAdjustableClock)beatmap.Value.Track ?? new StopwatchClock(); adjustableClock = new DecoupleableInterpolatingFramedClock { IsCoupled = false }; adjustableClock.ChangeSource(sourceClock); rulesetContainer.Clock = adjustableClock; } catch (Exception e) { Logger.Error(e, "Could not load beatmap sucessfully!"); return; } HitObjectMaskLayer hitObjectMaskLayer = new HitObjectMaskLayer(this); SelectionLayer selectionLayer = new SelectionLayer(rulesetContainer.Playfield); var layerBelowRuleset = new BorderLayer { RelativeSizeAxes = Axes.Both, Child = CreateLayerContainer() }; var layerAboveRuleset = CreateLayerContainer(); layerAboveRuleset.Children = new Drawable[] { selectionLayer, // Below object overlays for input hitObjectMaskLayer, selectionLayer.CreateProxy() // Proxy above object overlays for selections }; layerContainers.Add(layerBelowRuleset); layerContainers.Add(layerAboveRuleset); RadioButtonCollection toolboxCollection; InternalChild = new GridContainer { RelativeSizeAxes = Axes.Both, Content = new[] { new Drawable[] { new FillFlowContainer { Name = "Sidebar", RelativeSizeAxes = Axes.Both, Padding = new MarginPadding { Right = 10 }, Children = new Drawable[] { new ToolboxGroup { Child = toolboxCollection = new RadioButtonCollection { RelativeSizeAxes = Axes.X } } } }, new Container { Name = "Content", RelativeSizeAxes = Axes.Both, Children = new Drawable[] { layerBelowRuleset, rulesetContainer, layerAboveRuleset } } }, }, ColumnDimensions = new[] { new Dimension(GridSizeMode.Absolute, 200), } }; selectionLayer.ObjectSelected += hitObjectMaskLayer.AddOverlay; selectionLayer.ObjectDeselected += hitObjectMaskLayer.RemoveOverlay; selectionLayer.SelectionCleared += hitObjectMaskLayer.RemoveSelectionOverlay; selectionLayer.SelectionFinished += hitObjectMaskLayer.AddSelectionOverlay; toolboxCollection.Items = new[] { new RadioButton("Select", () => setCompositionTool(null)) } .Concat( CompositionTools.Select(t => new RadioButton(t.Name, () => setCompositionTool(t))) ) .ToList(); toolboxCollection.Items[0].Select(); } protected override void UpdateAfterChildren() { base.UpdateAfterChildren(); layerContainers.ForEach(l => { l.Anchor = rulesetContainer.Playfield.Anchor; l.Origin = rulesetContainer.Playfield.Origin; l.Position = rulesetContainer.Playfield.Position; l.Size = rulesetContainer.Playfield.Size; }); } protected override bool OnWheel(InputState state) { if (state.Mouse.WheelDelta > 0) SeekBackward(true); else SeekForward(true); return true; } /// /// Seeks the current time one beat-snapped beat-length backwards. /// /// Whether to snap to the closest beat. public void SeekBackward(bool snapped = false) => seek(-1, snapped); /// /// Seeks the current time one beat-snapped beat-length forwards. /// /// Whether to snap to the closest beat. public void SeekForward(bool snapped = false) => seek(1, snapped); private void seek(int direction, bool snapped) { // Todo: This should not be a constant, but feels good for now const int beat_snap_divisor = 4; var cpi = beatmap.Value.Beatmap.ControlPointInfo; var timingPoint = cpi.TimingPointAt(adjustableClock.CurrentTime); if (direction < 0 && timingPoint.Time == adjustableClock.CurrentTime) { // When going backwards and we're at the boundary of two timing points, we compute the seek distance with the timing point which we are seeking into int activeIndex = cpi.TimingPoints.IndexOf(timingPoint); while (activeIndex > 0 && adjustableClock.CurrentTime == timingPoint.Time) timingPoint = cpi.TimingPoints[--activeIndex]; } double seekAmount = timingPoint.BeatLength / beat_snap_divisor; double seekTime = adjustableClock.CurrentTime + seekAmount * direction; if (!snapped || cpi.TimingPoints.Count == 0) { adjustableClock.Seek(seekTime); return; } // We will be snapping to beats within timingPoint seekTime -= timingPoint.Time; // Determine the index from timingPoint of the closest beat to seekTime, accounting for scrolling direction int closestBeat; if (direction > 0) closestBeat = (int)Math.Floor(seekTime / seekAmount); else closestBeat = (int)Math.Ceiling(seekTime / seekAmount); seekTime = timingPoint.Time + closestBeat * seekAmount; // Due to the rounding above, we may end up on the current beat. This will effectively cause 0 seeking to happen, but we don't want this. // Instead, we'll go to the next beat in the direction when this is the case if (Precision.AlmostEquals(adjustableClock.CurrentTime, seekTime)) { closestBeat += direction > 0 ? 1 : -1; seekTime = timingPoint.Time + closestBeat * seekAmount; } if (seekTime < timingPoint.Time && timingPoint != cpi.TimingPoints.First()) seekTime = timingPoint.Time; var nextTimingPoint = cpi.TimingPoints.FirstOrDefault(t => t.Time > timingPoint.Time); if (seekTime > nextTimingPoint?.Time) seekTime = nextTimingPoint.Time; adjustableClock.Seek(seekTime); } public void SeekTo(double seekTime, bool snapped = false) { // Todo: This should not be a constant, but feels good for now const int beat_snap_divisor = 4; if (!snapped) { adjustableClock.Seek(seekTime); return; } var timingPoint = beatmap.Value.Beatmap.ControlPointInfo.TimingPointAt(seekTime); double beatSnapLength = timingPoint.BeatLength / beat_snap_divisor; // We will be snapping to beats within the timing point seekTime -= timingPoint.Time; // Determine the index from the current timing point of the closest beat to seekTime int closestBeat = (int)Math.Round(seekTime / beatSnapLength); seekTime = timingPoint.Time + closestBeat * beatSnapLength; // Depending on beatSnapLength, we may snap to a beat that is beyond timingPoint's end time, but we want to instead snap to // the next timing point's start time var nextTimingPoint = beatmap.Value.Beatmap.ControlPointInfo.TimingPoints.FirstOrDefault(t => t.Time > timingPoint.Time); if (seekTime > nextTimingPoint?.Time) seekTime = nextTimingPoint.Time; adjustableClock.Seek(seekTime); } private void setCompositionTool(ICompositionTool tool) => CurrentTool = tool; protected virtual RulesetContainer CreateRulesetContainer(Ruleset ruleset, WorkingBeatmap beatmap) => ruleset.CreateRulesetContainerWith(beatmap, true); protected abstract IReadOnlyList CompositionTools { get; } /// /// Creates a for a specific . /// /// The to create the overlay for. public virtual HitObjectMask CreateMaskFor(DrawableHitObject hitObject) => null; /// /// Creates a which outlines s /// and handles all hitobject movement/pattern adjustments. /// /// The overlays. public virtual SelectionBox CreateSelectionOverlay(IReadOnlyList overlays) => new SelectionBox(overlays); /// /// Creates a which provides a layer above or below the . /// protected virtual ScalableContainer CreateLayerContainer() => new ScalableContainer { RelativeSizeAxes = Axes.Both }; } }