osu/osu.Game.Rulesets.Catch/Beatmaps/CatchBeatmapProcessor.cs

240 lines
8.7 KiB
C#

// Copyright (c) ppy Pty Ltd <contact@ppy.sh>. Licensed under the MIT Licence.
// See the LICENCE file in the repository root for full licence text.
using System;
using System.Collections.Generic;
using System.Linq;
using osu.Game.Beatmaps;
using osu.Game.Rulesets.Catch.Objects;
using osu.Game.Rulesets.Catch.UI;
using osu.Game.Rulesets.Objects.Types;
using osu.Game.Rulesets.Catch.MathUtils;
using osu.Game.Rulesets.Mods;
namespace osu.Game.Rulesets.Catch.Beatmaps
{
public class CatchBeatmapProcessor : BeatmapProcessor
{
public const int RNG_SEED = 1337;
public CatchBeatmapProcessor(IBeatmap beatmap)
: base(beatmap)
{
}
public override void PostProcess()
{
base.PostProcess();
ApplyPositionOffsets(Beatmap);
initialiseHyperDash((List<CatchHitObject>)Beatmap.HitObjects);
int index = 0;
foreach (var obj in Beatmap.HitObjects.OfType<CatchHitObject>())
{
obj.IndexInBeatmap = index++;
if (obj.LastInCombo && obj.NestedHitObjects.LastOrDefault() is IHasComboInformation lastNested)
lastNested.LastInCombo = true;
}
}
public static void ApplyPositionOffsets(IBeatmap beatmap, params Mod[] mods)
{
var rng = new FastRandom(RNG_SEED);
bool shouldApplyHardRockOffset = mods.Any(m => m is ModHardRock);
float? lastPosition = null;
double lastStartTime = 0;
foreach (var obj in beatmap.HitObjects.OfType<CatchHitObject>())
{
obj.XOffset = 0;
switch (obj)
{
case Fruit fruit:
if (shouldApplyHardRockOffset)
applyHardRockOffset(fruit, ref lastPosition, ref lastStartTime, rng);
break;
case BananaShower bananaShower:
foreach (var banana in bananaShower.NestedHitObjects.OfType<Banana>())
{
banana.XOffset = (float)rng.NextDouble();
rng.Next(); // osu!stable retrieved a random banana type
rng.Next(); // osu!stable retrieved a random banana rotation
rng.Next(); // osu!stable retrieved a random banana colour
}
break;
case JuiceStream juiceStream:
foreach (var nested in juiceStream.NestedHitObjects)
{
var catchObject = (CatchHitObject)nested;
catchObject.XOffset = 0;
if (catchObject is TinyDroplet)
catchObject.XOffset = Math.Clamp(rng.Next(-20, 20) / CatchPlayfield.BASE_WIDTH, -catchObject.X, 1 - catchObject.X);
else if (catchObject is Droplet)
rng.Next(); // osu!stable retrieved a random droplet rotation
}
break;
}
}
}
private static void applyHardRockOffset(CatchHitObject hitObject, ref float? lastPosition, ref double lastStartTime, FastRandom rng)
{
if (hitObject is JuiceStream stream)
{
lastPosition = stream.EndX;
lastStartTime = stream.EndTime;
return;
}
if (!(hitObject is Fruit))
return;
float offsetPosition = hitObject.X;
double startTime = hitObject.StartTime;
if (lastPosition == null)
{
lastPosition = offsetPosition;
lastStartTime = startTime;
return;
}
float positionDiff = offsetPosition - lastPosition.Value;
double timeDiff = startTime - lastStartTime;
if (timeDiff > 1000)
{
lastPosition = offsetPosition;
lastStartTime = startTime;
return;
}
if (positionDiff == 0)
{
applyRandomOffset(ref offsetPosition, timeDiff / 4d, rng);
hitObject.XOffset = offsetPosition - hitObject.X;
return;
}
if (Math.Abs(positionDiff * CatchPlayfield.BASE_WIDTH) < timeDiff / 3d)
applyOffset(ref offsetPosition, positionDiff);
hitObject.XOffset = offsetPosition - hitObject.X;
lastPosition = offsetPosition;
lastStartTime = startTime;
}
/// <summary>
/// Applies a random offset in a random direction to a position, ensuring that the final position remains within the boundary of the playfield.
/// </summary>
/// <param name="position">The position which the offset should be applied to.</param>
/// <param name="maxOffset">The maximum offset, cannot exceed 20px.</param>
/// <param name="rng">The random number generator.</param>
private static void applyRandomOffset(ref float position, double maxOffset, FastRandom rng)
{
bool right = rng.NextBool();
float rand = Math.Min(20, (float)rng.Next(0, Math.Max(0, maxOffset))) / CatchPlayfield.BASE_WIDTH;
if (right)
{
// Clamp to the right bound
if (position + rand <= 1)
position += rand;
else
position -= rand;
}
else
{
// Clamp to the left bound
if (position - rand >= 0)
position -= rand;
else
position += rand;
}
}
/// <summary>
/// Applies an offset to a position, ensuring that the final position remains within the boundary of the playfield.
/// </summary>
/// <param name="position">The position which the offset should be applied to.</param>
/// <param name="amount">The amount to offset by.</param>
private static void applyOffset(ref float position, float amount)
{
if (amount > 0)
{
// Clamp to the right bound
if (position + amount < 1)
position += amount;
}
else
{
// Clamp to the left bound
if (position + amount > 0)
position += amount;
}
}
private void initialiseHyperDash(List<CatchHitObject> objects)
{
List<CatchHitObject> objectWithDroplets = new List<CatchHitObject>();
foreach (var currentObject in objects)
{
if (currentObject is Fruit)
objectWithDroplets.Add(currentObject);
if (currentObject is JuiceStream)
{
foreach (var currentJuiceElement in currentObject.NestedHitObjects)
{
if (!(currentJuiceElement is TinyDroplet))
objectWithDroplets.Add((CatchHitObject)currentJuiceElement);
}
}
}
objectWithDroplets.Sort((h1, h2) => h1.StartTime.CompareTo(h2.StartTime));
double halfCatcherWidth = CatcherArea.GetCatcherSize(Beatmap.BeatmapInfo.BaseDifficulty) / 2;
int lastDirection = 0;
double lastExcess = halfCatcherWidth;
for (int i = 0; i < objectWithDroplets.Count - 1; i++)
{
CatchHitObject currentObject = objectWithDroplets[i];
CatchHitObject nextObject = objectWithDroplets[i + 1];
int thisDirection = nextObject.X > currentObject.X ? 1 : -1;
double timeToNext = nextObject.StartTime - currentObject.StartTime - 1000f / 60f / 4; // 1/4th of a frame of grace time, taken from osu-stable
double distanceToNext = Math.Abs(nextObject.X - currentObject.X) - (lastDirection == thisDirection ? lastExcess : halfCatcherWidth);
float distanceToHyper = (float)(timeToNext * CatcherArea.Catcher.BASE_SPEED - distanceToNext);
if (distanceToHyper < 0)
{
currentObject.HyperDashTarget = nextObject;
lastExcess = halfCatcherWidth;
}
else
{
currentObject.DistanceToHyperDash = distanceToHyper;
lastExcess = Math.Clamp(distanceToHyper, 0, halfCatcherWidth);
}
lastDirection = thisDirection;
}
}
}
}