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osu-lazer/osu.Game.Rulesets.Catch/Difficulty/Skills/Movement.cs
Samuel Cattini-Schultz 85d2b1232a Refactor to abstract out strain logic into StrainSkill class
While it is the case for the existing official Skills, Skill implementations shouldn't be required to conform to a strain based approach.
There are other valid approaches to calculating skill difficulty that can be supported by abstracting the strain logic into its own StrainSkill class.
2021-04-03 20:52:39 +11:00

95 lines
3.8 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 osu.Game.Rulesets.Catch.Difficulty.Preprocessing;
using osu.Game.Rulesets.Difficulty.Preprocessing;
using osu.Game.Rulesets.Difficulty.Skills;
using osu.Game.Rulesets.Mods;
namespace osu.Game.Rulesets.Catch.Difficulty.Skills
{
public class Movement : StrainSkill
{
private const float absolute_player_positioning_error = 16f;
private const float normalized_hitobject_radius = 41.0f;
private const double direction_change_bonus = 21.0;
protected override double SkillMultiplier => 900;
protected override double StrainDecayBase => 0.2;
protected override double DecayWeight => 0.94;
protected override int SectionLength => 750;
protected readonly float HalfCatcherWidth;
private float? lastPlayerPosition;
private float lastDistanceMoved;
private double lastStrainTime;
public Movement(Mod[] mods, float halfCatcherWidth)
: base(mods)
{
HalfCatcherWidth = halfCatcherWidth;
}
protected override double StrainValueOf(DifficultyHitObject current)
{
var catchCurrent = (CatchDifficultyHitObject)current;
lastPlayerPosition ??= catchCurrent.LastNormalizedPosition;
float playerPosition = Math.Clamp(
lastPlayerPosition.Value,
catchCurrent.NormalizedPosition - (normalized_hitobject_radius - absolute_player_positioning_error),
catchCurrent.NormalizedPosition + (normalized_hitobject_radius - absolute_player_positioning_error)
);
float distanceMoved = playerPosition - lastPlayerPosition.Value;
double weightedStrainTime = catchCurrent.StrainTime + 13 + (3 / catchCurrent.ClockRate);
double distanceAddition = (Math.Pow(Math.Abs(distanceMoved), 1.3) / 510);
double sqrtStrain = Math.Sqrt(weightedStrainTime);
double edgeDashBonus = 0;
// Direction change bonus.
if (Math.Abs(distanceMoved) > 0.1)
{
if (Math.Abs(lastDistanceMoved) > 0.1 && Math.Sign(distanceMoved) != Math.Sign(lastDistanceMoved))
{
double bonusFactor = Math.Min(50, Math.Abs(distanceMoved)) / 50;
double antiflowFactor = Math.Max(Math.Min(70, Math.Abs(lastDistanceMoved)) / 70, 0.38);
distanceAddition += direction_change_bonus / Math.Sqrt(lastStrainTime + 16) * bonusFactor * antiflowFactor * Math.Max(1 - Math.Pow(weightedStrainTime / 1000, 3), 0);
}
// Base bonus for every movement, giving some weight to streams.
distanceAddition += 12.5 * Math.Min(Math.Abs(distanceMoved), normalized_hitobject_radius * 2) / (normalized_hitobject_radius * 6) / sqrtStrain;
}
// Bonus for edge dashes.
if (catchCurrent.LastObject.DistanceToHyperDash <= 20.0f)
{
if (!catchCurrent.LastObject.HyperDash)
edgeDashBonus += 5.7;
else
{
// After a hyperdash we ARE in the correct position. Always!
playerPosition = catchCurrent.NormalizedPosition;
}
distanceAddition *= 1.0 + edgeDashBonus * ((20 - catchCurrent.LastObject.DistanceToHyperDash) / 20) * Math.Pow((Math.Min(catchCurrent.StrainTime * catchCurrent.ClockRate, 265) / 265), 1.5); // Edge Dashes are easier at lower ms values
}
lastPlayerPosition = playerPosition;
lastDistanceMoved = distanceMoved;
lastStrainTime = catchCurrent.StrainTime;
return distanceAddition / weightedStrainTime;
}
}
}