mirror of
https://github.com/RHeavenStudioPlus/HeavenStudioPlus.git
synced 2024-11-23 01:55:16 +00:00
50a1b7bcdb
* add Jukebox library todo: - saving / loading of new format - inferrence of unknown data like past versions - move the temporary float casts to proper use of double - make sound related functions take double for timing - inform people that the Jukebox sound player was renamed to SoundByte lol * make sound, input scheduling, and super curve use double precision * successfully load charts * editor works again v1 riqs can be saved and loaded * first tempo and volume markers are unmovable fix loading of charts' easing values * use gsync / freesync * update Jukebox refs to SoundByte * game events use double part 1 Air Rally - Glee Club converted * don't load song if chart load fails * finish conversion of all minigames * remove editor waveform toggle * timeline now respects added song offset length clear cache files on app close prepped notes for dsp sync * update timeline length when offset changed * update to latest Jukebox * make error panel object in global game manager * improve conductor music scheduling * added error message box fix first game events sometimes not playing
207 lines
No EOL
7.4 KiB
C#
207 lines
No EOL
7.4 KiB
C#
using System;
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using System.Collections;
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using System.Collections.Generic;
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using UnityEngine;
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namespace HeavenStudio
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{
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public class SuperCurveObject : MonoBehaviour
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{
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[SerializeField] protected Vector3 offset;
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protected Vector3 lastRealPos;
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protected PathPos currentPathPos;
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[Serializable]
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public struct PathPos
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{
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[SerializeField] public string tag;
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[SerializeField] public Vector3 pos;
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[SerializeField] public Transform target;
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[SerializeField] public float height;
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[SerializeField] public float duration;
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[SerializeField] public bool useLastRealPos;
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[SerializeField] public PathValue[] values;
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}
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[Serializable]
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public struct Path
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{
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[SerializeField] public string name;
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[SerializeField] public bool preview;
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[SerializeField] public GameObject anchor;
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[SerializeField] public PathPos[] positions;
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}
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[Serializable]
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public struct PathValue
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{
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[SerializeField] public string key;
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[SerializeField] public float value;
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}
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public static PathPos GetPathPosByTag(Path path, string tag)
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{
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foreach (PathPos pos in path.positions)
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{
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if (pos.tag == tag)
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return pos;
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}
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return default(PathPos);
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}
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public static PathPos GetPathPosByTime(Path path, double currentTime, out double posTime, out PathPos nextPos, out PathPos prevPos, out bool pastCurve)
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{
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pastCurve = false;
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PathPos currentPos = path.positions[0];
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prevPos = path.positions[0];
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nextPos = path.positions[1];
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float currentPosTime = 0f;
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for (int i = 0; i < path.positions.Length - 1; i++)
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{
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prevPos = currentPos;
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currentPos = path.positions[i];
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nextPos = path.positions[i + 1];
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if (currentTime >= currentPosTime && currentTime < currentPosTime + currentPos.duration)
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{
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posTime = currentPosTime;
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return currentPos;
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}
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if (i + 1 < path.positions.Length - 1)
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currentPosTime += currentPos.duration;
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else
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{
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pastCurve = true;
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posTime = currentPosTime;
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return currentPos;
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}
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}
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nextPos = default(PathPos);
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prevPos = default(PathPos);
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posTime = 0f;
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return default(PathPos);
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}
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public static PathPos GetPathPosByTime(Path path, double currentTime)
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{
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return GetPathPosByTime(path, currentTime, out _, out _, out _, out _);
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}
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public static float GetPointTimeByTag(Path path, string tag)
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{
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float currentTime = 0f;
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foreach (PathPos pos in path.positions)
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{
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if (pos.tag == tag)
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return currentTime;
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currentTime += pos.duration;
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}
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return 0f;
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}
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protected virtual void UpdateLastRealPos()
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{
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lastRealPos = transform.position;
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}
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protected virtual float GetPathValue(string key)
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{
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if (currentPathPos.values == null)
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return 0f;
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foreach (PathValue value in currentPathPos.values)
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{
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if (value.key == key)
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{
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return value.value;
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}
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}
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return 0f;
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}
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protected virtual Vector3 GetPathPositionFromBeat(Path path, double currentTime, out double heightOffset, double startTime = 0f)
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{
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heightOffset = 0f;
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Vector3 anchorPos = Vector3.zero;
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if (path.anchor != null)
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anchorPos = path.anchor.transform.position;
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if (path.positions.Length < 2)
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return transform.position;
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PathPos nextPos = path.positions[0];
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double currentPosTime = 0;
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PathPos currentPos = GetPathPosByTime(path, currentTime - startTime, out currentPosTime, out nextPos, out _, out _);
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currentPathPos = currentPos;
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if (currentPos.pos == null || nextPos.pos == null)
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return transform.position;
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Vector3 startPos = currentPos.pos;
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if (currentPos.useLastRealPos)
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startPos = lastRealPos;
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else if (currentPos.target != null)
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startPos = currentPos.target.position;
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Vector3 endPos = nextPos.pos;
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if (nextPos.target != null)
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endPos = nextPos.target.position;
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double time = (currentTime - startTime - currentPosTime) / currentPos.duration;
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Vector3 pos = Vector3.LerpUnclamped(startPos, endPos, (float) time);
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double yMul = time * 2f - 1f;
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double yWeight = -(yMul * yMul) + 1f;
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heightOffset = yWeight * currentPos.height;
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pos.y += (float) heightOffset;
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return pos + offset + anchorPos;
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}
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protected virtual Vector3 GetPathPositionFromBeat(Path path, double currentTime, double startTime = 0f)
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{
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return GetPathPositionFromBeat(path, currentTime, out _, startTime);
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}
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// Editor gizmo to draw trajectories
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const float TRAJECTORY_STEP = 0.1f;
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public virtual void DrawEditorGizmo(Path path)
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{
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if (path.positions.Length > 1)
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{
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Vector3 anchorPos = Vector3.zero;
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if (path.anchor != null)
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anchorPos = path.anchor.transform.position;
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for (int i = 0; i < path.positions.Length - 1; i++)
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{
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PathPos pos = path.positions[i];
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PathPos nextPos = path.positions[i + 1];
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if (pos.pos == null || nextPos.pos == null)
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return;
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Vector3 startPos = pos.pos;
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if (pos.target != null)
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startPos = pos.target.position;
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Vector3 endPos = nextPos.pos;
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if (nextPos.target != null)
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endPos = nextPos.target.position;
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// draw a curve between the two points using the path height
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List<Vector3> points = new List<Vector3>();
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for (float t = 0; t < 1; t += TRAJECTORY_STEP)
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{
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float yMul = t * 2f - 1f;
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float yWeight = -(yMul * yMul) + 1f;
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Vector3 p = Vector3.LerpUnclamped(startPos, endPos, t);
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p.y += yWeight * pos.height;
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points.Add(p + anchorPos);
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}
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points.Add(endPos + anchorPos);
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for (int j = 0; j < points.Count - 1; j++)
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{
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Gizmos.color = Color.blue;
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Gizmos.DrawLine(points[j], points[j + 1]);
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}
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Gizmos.DrawSphere(startPos, 0.1f);
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Gizmos.DrawSphere(endPos, 0.1f);
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}
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}
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}
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}
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} |