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osu-lazer/osu.Game/Rulesets/Timing/DrawableTimingSection.cs

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// Copyright (c) 2007-2017 ppy Pty Ltd <contact@ppy.sh>.
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// Licensed under the MIT Licence - https://raw.githubusercontent.com/ppy/osu/master/LICENCE
using System.Collections.Generic;
using System.Linq;
using osu.Framework.Caching;
using osu.Framework.Configuration;
using osu.Framework.Graphics;
using osu.Framework.Graphics.Containers;
using osu.Game.Rulesets.Objects;
using osu.Game.Rulesets.Objects.Drawables;
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using OpenTK;
using osu.Game.Rulesets.Objects.Types;
namespace osu.Game.Rulesets.Timing
{
/// <summary>
/// A collection of hit objects which scrolls within a <see cref="SpeedAdjustmentContainer"/>.
///
/// <para>
/// This container handles the conversion between time and position through <see cref="Container{T}.RelativeChildSize"/> and
/// <see cref="Container{T}.RelativeChildOffset"/> such that hit objects added to this container should have time values set as their
/// positions/sizes to make proper use of this container.
/// </para>
///
/// <para>
/// This container will auto-size to the total duration of the contained hit objects along the desired auto-sizing axes such that the resulting size
/// of this container will be a value representing the total duration of all contained hit objects.
/// </para>
///
/// <para>
/// This container is and must always be relatively-sized and positioned to its such that the parent can utilise <see cref="Container{T}.RelativeChildSize"/>
/// and <see cref="Container{T}.RelativeChildOffset"/> to apply further time offsets to this collection of hit objects.
/// </para>
/// </summary>
public abstract class DrawableTimingSection : Container<DrawableHitObject>
{
private readonly BindableDouble visibleTimeRange = new BindableDouble();
/// <summary>
/// Gets or sets the range of time that is visible by the length of this container.
/// </summary>
public BindableDouble VisibleTimeRange
{
get { return visibleTimeRange; }
set { visibleTimeRange.BindTo(value); }
}
/// <summary>
/// Axes through which this timing section scrolls. This is set by the <see cref="SpeedAdjustmentContainer"/>.
/// </summary>
internal Axes ScrollingAxes;
/// <summary>
/// The control point that provides the speed adjustments for this container. This is set by the <see cref="SpeedAdjustmentContainer"/>.
/// </summary>
internal MultiplierControlPoint ControlPoint;
protected override IComparer<Drawable> DepthComparer => new HitObjectReverseStartTimeComparer();
/// <summary>
/// Creates a new <see cref="DrawableTimingSection"/>.
/// </summary>
protected DrawableTimingSection()
{
RelativeSizeAxes = Axes.Both;
RelativePositionAxes = Axes.Both;
}
public override void InvalidateFromChild(Invalidation invalidation)
{
// We only want to re-compute our size when a child's size or position has changed
if ((invalidation & Invalidation.RequiredParentSizeToFit) == 0)
{
base.InvalidateFromChild(invalidation);
return;
}
durationBacking.Invalidate();
base.InvalidateFromChild(invalidation);
}
private Cached<double> durationBacking = new Cached<double>();
/// <summary>
/// The maximum duration of any one hit object inside this <see cref="DrawableTimingSection"/>. This is calculated as the maximum
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/// end time between all hit objects relative to this <see cref="DrawableTimingSection"/>'s <see cref="MultiplierControlPoint.StartTime"/>.
/// </summary>
public double Duration => durationBacking.EnsureValid()
? durationBacking.Value
: durationBacking.Refresh(() =>
{
if (!Children.Any())
return 0;
double baseDuration = Children.Max(c => (c.HitObject as IHasEndTime)?.EndTime ?? c.HitObject.StartTime) - ControlPoint.StartTime;
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// If we have a singular hit object at the timing section's start time, let's set a sane default duration
if (baseDuration == 0)
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baseDuration = 1;
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// Scrolling ruleset hit objects typically have anchors+origins set to the hit object's start time, but if the hit object doesn't implement IHasEndTime and lies on the control point
// then the baseDuration above will be 0. This will cause problems with masking when it is further set as the value for Size in Update(). We _want_ the timing section bounds to
// completely enclose the hit object to avoid the masking optimisations.
//
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// To do this we need to find a duration that corresponds to the absolute size of the element that extrudes beyond the timing section's bounds and add that to baseDuration.
// We can utilize the fact that the Size and RelativeChildSpace are 1:1, meaning that an change in duration for the timing section has no change to the hit object's positioning
// and simply find the largest absolutely-sized element in this timing section. This introduces a little bit of error, but will never under-estimate the duration.
// Find the largest element that is absolutely-sized along ScrollingAxes
float maxAbsoluteSize = Children.Where(c => (c.RelativeSizeAxes & ScrollingAxes) == 0)
.Select(c => (ScrollingAxes & Axes.X) > 0 ? c.Width : c.Height)
.DefaultIfEmpty().Max();
float ourAbsoluteSize = (ScrollingAxes & Axes.X) > 0 ? DrawWidth : DrawHeight;
// Add the extra duration to account for the absolute size
baseDuration *= 1 + maxAbsoluteSize / ourAbsoluteSize;
return baseDuration;
});
protected override void Update()
{
base.Update();
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// We want our size and position-space along ScrollingAxes to span our duration to completely enclose all the hit objects
Size = new Vector2((ScrollingAxes & Axes.X) > 0 ? (float)Duration : Size.X, (ScrollingAxes & Axes.Y) > 0 ? (float)Duration : Size.Y);
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// And we need to make sure the hit object's position-space doesn't change due to our resizing
RelativeChildSize = Size;
}
}
}