74359d3e1c
* coin toss to see saw * all done * more stuffs
481 lines
20 KiB
C#
481 lines
20 KiB
C#
using System.Collections;
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using System.Collections.Generic;
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using UnityEngine;
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using NaughtyBezierCurves;
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using DG.Tweening;
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using System;
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using HeavenStudio.Util;
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using Jukebox;
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namespace HeavenStudio.Games.Loaders
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{
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using static Minigames;
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public static class NtrFlickLoader
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{
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public static Minigame AddGame(EventCaller eventCaller) {
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return new Minigame("builtToScaleDS", "Built To Scale (DS)", "1ad21a", false, false, new List<GameAction>()
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{
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new GameAction("spawn blocks", "Widget")
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{
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function = delegate {var e = eventCaller.currentEntity; BuiltToScaleDS.instance.MultiplePiano(e.beat, e.length, e["silent"], e["note1"], e["note2"], e["note3"], e["note4"], e["note5"], e["note6"]); },
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resizable = true,
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parameters = new List<Param>()
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{
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new Param("silent", false, "Mute Audio", "Whether the piano notes should be muted or not."),
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new Param("note1", new EntityTypes.Integer(-24, 24, 0), "1st note", "The number of semitones up or down this note should be pitched"),
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new Param("note2", new EntityTypes.Integer(-24, 24, 2), "2nd note", "The number of semitones up or down this note should be pitched"),
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new Param("note3", new EntityTypes.Integer(-24, 24, 4), "3rd note", "The number of semitones up or down this note should be pitched"),
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new Param("note4", new EntityTypes.Integer(-24, 24, 5), "4th note", "The number of semitones up or down this note should be pitched"),
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new Param("note5", new EntityTypes.Integer(-24, 24, 7), "5th note", "The number of semitones up or down this note should be pitched"),
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new Param("note6", new EntityTypes.Integer(-24, 24, 12), "6th note", "The number of semitones up or down this note should be pitched (This plays together with the 5th note)"),
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}
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},
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new GameAction("play piano", "Play Note")
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{
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function = delegate { BuiltToScaleDS.instance.PlayPiano(eventCaller.currentEntity.beat, eventCaller.currentEntity.length, eventCaller.currentEntity["type"]); },
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resizable = true,
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parameters = new List<Param>()
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{
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new Param("type", new EntityTypes.Integer(-24, 24, 0), "Semitones", "The number of semitones up or down this note should be pitched")
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},
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},
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new GameAction("color", "Color Palette")
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{
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function = delegate { var e = eventCaller.currentEntity; BuiltToScaleDS.instance.UpdateMappingColors(e["object"], e["shooter"], e["bg"]); },
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defaultLength = 0.5f,
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parameters = new List<Param>()
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{
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new Param("object", Color.white, "Object Color"),
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new Param("shooter", Color.white, "Shooter Color"),
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new Param("bg", new Color(0, 1, 0, 1), "Environment Color")
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}
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},
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new GameAction("lights", "Lights")
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{
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function = delegate { var e = eventCaller.currentEntity; BuiltToScaleDS.instance.Lights(e.beat, e.length, e["auto"], e["light"] && !e["auto"]); },
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defaultLength = 4f,
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resizable = true,
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parameters = new List<Param>()
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{
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new Param("auto", true, "Lights (Auto)", "Should the lights auto light?"),
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new Param("light", false, "Lights", "Should the lights light?")
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}
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}
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}, new List<string>() { "ntr", "normal" }, "ntrassembly", "en", new List<string>() { });
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}
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}
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}
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namespace HeavenStudio.Games
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{
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using Scripts_BuiltToScaleDS;
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public class BuiltToScaleDS : Minigame
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{
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public enum BTSObject { HitPieces, MissPieces, FlyingRod }
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[Header("Camera")]
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[SerializeField] Transform camPos;
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[SerializeField] float cameraFoV;
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[Header("References")]
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[SerializeField] SkinnedMeshRenderer environmentRenderer;
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[SerializeField] SkinnedMeshRenderer elevatorRenderer;
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public GameObject flyingRodBase;
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public GameObject movingBlocksBase;
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public GameObject hitPartsBase;
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public GameObject missPartsBase;
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public Transform partsHolder;
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public Transform blocksHolder;
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public Animator shooterAnim;
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public Animator elevatorAnim;
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[SerializeField] private Material shooterMaterial;
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[SerializeField] private Material objectMaterial;
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[SerializeField] private Material gridPlaneMaterial;
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private Material elevatorMaterial;
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private Material[] gridMaterials;
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private Material[] firstPatternLights;
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private Material[] secondPatternLights;
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private Material[] elevatorObjectMats;
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[Header("Properties")]
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[SerializeField] float beltSpeed = 1f;
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private Material beltMaterial;
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private Material[] environmentMaterials;
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private Material[] elevatorMaterials;
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private float currentBeltOffset;
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private bool lighting = false;
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private bool autoLight = false;
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private bool firstLight = true;
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[NonSerialized] public bool shootingThisFrame;
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[NonSerialized] public bool lastShotOut = false;
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private static Color currentObjectColor = Color.white;
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private static Color currentShooterColor = Color.white;
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private static Color currentEnvironmentColor = new Color(0, 1, 0, 1);
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public static BuiltToScaleDS instance;
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private GameEvent lightBeat = new GameEvent();
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private void Awake()
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{
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instance = this;
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environmentMaterials = environmentRenderer.materials;
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elevatorMaterials = elevatorRenderer.materials;
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beltMaterial = Instantiate(environmentMaterials[8]);
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environmentMaterials[8] = beltMaterial;
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elevatorObjectMats = new Material[]
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{
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Instantiate(elevatorMaterials[0]),
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Instantiate(elevatorMaterials[1]),
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Instantiate(elevatorMaterials[2]),
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};
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elevatorMaterials[0] = elevatorObjectMats[0];
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elevatorMaterials[1] = elevatorObjectMats[1];
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elevatorMaterials[2] = elevatorObjectMats[2];
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elevatorMaterial = Instantiate(elevatorMaterials[3]);
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elevatorMaterials[3] = elevatorMaterial;
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gridMaterials = new Material[]
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{
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Instantiate(environmentMaterials[9]),
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Instantiate(environmentMaterials[11]),
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Instantiate(environmentMaterials[12]),
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Instantiate(environmentMaterials[13]),
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Instantiate(environmentMaterials[14]),
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};
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environmentMaterials[9] = gridMaterials[0];
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environmentMaterials[11] = gridMaterials[1];
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environmentMaterials[12] = gridMaterials[2];
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environmentMaterials[13] = gridMaterials[3];
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environmentMaterials[14] = gridMaterials[4];
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firstPatternLights = new Material[]
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{
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Instantiate(environmentMaterials[1]),
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Instantiate(environmentMaterials[2]),
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Instantiate(environmentMaterials[4]),
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};
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environmentMaterials[1] = firstPatternLights[0];
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environmentMaterials[2] = firstPatternLights[1];
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environmentMaterials[4] = firstPatternLights[2];
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secondPatternLights = new Material[]
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{
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Instantiate(environmentMaterials[0]),
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Instantiate(environmentMaterials[3])
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};
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environmentMaterials[0] = secondPatternLights[0];
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environmentMaterials[3] = secondPatternLights[1];
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elevatorAnim.Play("MakeRod", 0, 1f);
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UpdateColors();
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}
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private void OnDestroy()
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{
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currentObjectColor = Color.white;
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currentShooterColor = Color.white;
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currentEnvironmentColor = new Color(0, 1, 0, 1);
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UpdateColors();
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foreach (var evt in scheduledInputs)
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{
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evt.Disable();
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}
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}
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private void Start()
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{
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GameCamera.additionalPosition = camPos.position + (Quaternion.Euler(camPos.eulerAngles) * Vector3.forward * 10f);
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GameCamera.additionalRotEluer = camPos.eulerAngles;
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GameCamera.additionalFoV = cameraFoV;
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}
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public void UpdateMappingColors(Color objectColor, Color shooterColor, Color environmentColor)
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{
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currentObjectColor = objectColor;
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currentShooterColor = shooterColor;
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currentEnvironmentColor = environmentColor;
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UpdateColors();
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}
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private void PersistColors(double beat)
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{
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var allEventsBeforeBeat = EventCaller.GetAllInGameManagerList("builtToScaleDS", new string[] { "color" }).FindAll(x => x.beat < beat);
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if (allEventsBeforeBeat.Count > 0)
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{
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allEventsBeforeBeat.Sort((x, y) => x.beat.CompareTo(y.beat));
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var lastEvent = allEventsBeforeBeat[^1];
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UpdateMappingColors(lastEvent["object"], lastEvent["shooter"], lastEvent["bg"]);
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}
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}
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public override void OnGameSwitch(double beat)
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{
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PersistColors(beat);
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}
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public override void OnPlay(double beat)
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{
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PersistColors(beat);
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}
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private void UpdateColors()
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{
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objectMaterial.SetColor("_Color", currentObjectColor);
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shooterMaterial.SetColor("_Color", currentShooterColor);
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beltMaterial.SetColor("_Color", currentEnvironmentColor);
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gridPlaneMaterial.SetColor("_Color", currentEnvironmentColor);
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elevatorMaterial.SetColor("_Color", currentEnvironmentColor);
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foreach (var mat in gridMaterials)
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{
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mat.SetColor("_Color", currentEnvironmentColor);
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}
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foreach (var mat in elevatorObjectMats)
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{
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mat.SetColor("_Color", currentObjectColor);
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}
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if (!lighting)
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{
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foreach (var mat in firstPatternLights)
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{
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mat.SetColor("_Color", currentEnvironmentColor);
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}
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foreach (var mat in secondPatternLights)
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{
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mat.SetColor("_Color", currentEnvironmentColor);
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}
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}
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}
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List<RiqEntity> spawnedBlockEvents = new List<RiqEntity>();
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void Update()
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{
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if (!Conductor.instance.isPlaying && !Conductor.instance.isPaused)
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return;
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var currentBeat = Conductor.instance.songPositionInBeatsAsDouble;
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var blockEvents = GameManager.instance.Beatmap.Entities.FindAll(c => c.datamodel == "builtToScaleDS/spawn blocks");
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for (int i = 0; i < blockEvents.Count; i++)
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{
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var ev = blockEvents[i];
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if (spawnedBlockEvents.Contains(ev)) continue; // Don't spawn the same blocks multiple times.
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var spawnBeat = ev.beat - ev.length;
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if (currentBeat > spawnBeat && currentBeat < ev.beat + ev.length)
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{
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SpawnBlocks(spawnBeat, ev.length);
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spawnedBlockEvents.Add(ev);
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break;
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}
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}
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if (Conductor.instance.ReportBeat(ref lightBeat.lastReportedBeat, lightBeat.startBeat % 1) && autoLight)
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{
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HandleLights();
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}
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currentBeltOffset = (currentBeltOffset + Time.deltaTime * -beltSpeed) % 1f;
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beltMaterial.mainTextureOffset = new Vector2(0f, currentBeltOffset);
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environmentRenderer.materials = environmentMaterials;
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elevatorRenderer.materials = elevatorMaterials;
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}
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void LateUpdate()
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{
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var shooterState = shooterAnim.GetCurrentAnimatorStateInfo(0);
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bool canShoot = (!shooterState.IsName("Shoot") || shooterAnim.IsAnimationNotPlaying()) && !shootingThisFrame;
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if (canShoot && lastShotOut)
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lastShotOut = false;
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if (canShoot && !lastShotOut && PlayerInput.Pressed() && !IsExpectingInputNow(InputType.STANDARD_DOWN))
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{
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lastShotOut = true;
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shootingThisFrame = true;
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Shoot();
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SpawnObject(BTSObject.FlyingRod);
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SoundByte.PlayOneShotGame("builtToScaleDS/Boing");
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}
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if (!shootingThisFrame)
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{
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if (blocksHolder.childCount == 0 && shooterState.IsName("Windup") && shooterAnim.IsAnimationNotPlaying())
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{
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shooterAnim.Play("WindDown", 0, 0);
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}
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}
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shootingThisFrame = false;
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}
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public void Lights(double beat, float length, bool autoLights, bool shouldLights)
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{
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autoLight = autoLights;
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lighting = autoLights || shouldLights;
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if (shouldLights)
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{
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List<BeatAction.Action> actions = new List<BeatAction.Action>();
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for (int i = 0; i < length; i++)
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{
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actions.Add(new BeatAction.Action(beat + i, delegate { HandleLights(); }));
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}
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if (!autoLights)
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{
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lighting = false;
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actions.Add(new BeatAction.Action(beat + length, delegate
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{
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foreach (var lightMat in firstPatternLights)
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{
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lightMat.DOColor(currentEnvironmentColor, 0.2f);
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}
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foreach (var lightMat in secondPatternLights)
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{
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lightMat.DOColor(currentEnvironmentColor, 0.2f);
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}
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}));
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}
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BeatAction.New(instance.gameObject, actions);
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}
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if (!autoLights && !shouldLights)
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{
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lighting = false;
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foreach (var lightMat in firstPatternLights)
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{
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lightMat.DOColor(currentEnvironmentColor, 0.2f);
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}
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foreach (var lightMat in secondPatternLights)
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{
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lightMat.DOColor(currentEnvironmentColor, 0.2f);
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}
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}
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}
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private void HandleLights()
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{
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if (firstLight)
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{
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foreach (var lightMat in firstPatternLights)
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{
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lightMat.DOColor(Color.white, 0.2f);
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}
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foreach (var lightMat in secondPatternLights)
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{
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lightMat.DOColor(currentEnvironmentColor, 0.2f);
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}
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}
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else
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{
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foreach (var lightMat in firstPatternLights)
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{
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lightMat.DOColor(currentEnvironmentColor, 0.2f);
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}
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foreach (var lightMat in secondPatternLights)
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{
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lightMat.DOColor(Color.white, 0.2f);
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}
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}
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firstLight = !firstLight;
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}
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public void SpawnBlocks(double beat, float length)
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{
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var newBlocks = GameObject.Instantiate(movingBlocksBase, blocksHolder).GetComponent<Blocks>();
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newBlocks.createBeat = beat;
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newBlocks.createLength = length;
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newBlocks.gameObject.SetActive(true);
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SetBlockTime(newBlocks, beat, length);
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}
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const int blockFramesPerSecond = 24;
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const int blockHitFrame = 39;
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const int blockTotalFrames = 80;
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const int spawnFrameOffset = -3;
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List<int> criticalFrames = new List<int> { 7, 15, 23, 31, 39, 47 };
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public void SetBlockTime(Blocks blocks, double spawnBeat, float length)
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{
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float spawnTimeOffset = (float)spawnFrameOffset / (float)blockFramesPerSecond;
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float secondsPerFrame = 1f / blockFramesPerSecond;
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float secondsToHitFrame = secondsPerFrame * blockHitFrame;
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float secondsPerBeat = Conductor.instance.secPerBeat;
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float secondsToHitBeat = secondsPerBeat * 5f * length + spawnTimeOffset;
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float speedMult = secondsToHitFrame / secondsToHitBeat;
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float secondsPastSpawnTime = secondsPerBeat * (Conductor.instance.songPositionInBeats - (float)spawnBeat) + spawnTimeOffset;
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float framesPastSpawnTime = blockFramesPerSecond * speedMult * secondsPastSpawnTime;
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// The only way I could deal with Unity's interpolation shenanigans without having a stroke.
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if (criticalFrames.Contains(Mathf.FloorToInt(framesPastSpawnTime)))
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framesPastSpawnTime = Mathf.CeilToInt(framesPastSpawnTime);
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blocks.anim.Play("Move", 0, framesPastSpawnTime / blockTotalFrames);
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blocks.anim.speed = speedMult;
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}
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public void SpawnObject(BTSObject btsObject)
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{
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GameObject prefabToUse = null;
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string animNameToUse = "";
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switch (btsObject)
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{
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case BTSObject.HitPieces:
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prefabToUse = hitPartsBase;
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animNameToUse = "PartsHit";
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break;
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case BTSObject.MissPieces:
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prefabToUse = missPartsBase;
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animNameToUse = "PartsMiss";
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break;
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case BTSObject.FlyingRod:
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prefabToUse = flyingRodBase;
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animNameToUse = "Fly";
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break;
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}
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if (prefabToUse != null)
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{
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var newPiece = GameObject.Instantiate(prefabToUse, partsHolder).GetComponent<BTSPiece>();
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newPiece.gameObject.SetActive(true);
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newPiece.anim.Play(animNameToUse, 0, 0);
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}
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}
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public void Shoot()
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{
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shooterAnim.Play("Shoot", 0, 0);
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elevatorAnim.Play("MakeRod", 0, 0);
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}
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public void PlayPiano(double beat, float length, int semiTones)
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{
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var pianoPitch = SoundByte.GetPitchFromSemiTones(semiTones, true);
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var pianoSource = SoundByte.PlayOneShotGame("builtToScaleDS/Piano", -1, pianoPitch, 0.8f, true);
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pianoSource.SetLoopParams(beat + length, 0.1f);
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}
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public void MultiplePiano(double beat, float length, bool silent, int note1, int note2, int note3, int note4, int note5, int note6)
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{
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if (silent) return;
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BeatAction.New(instance.gameObject, new List<BeatAction.Action>()
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{
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new BeatAction.Action(beat, delegate { PlayPiano(beat, length, note1); }),
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new BeatAction.Action(beat + length, delegate { PlayPiano(beat + length, length, note2); }),
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new BeatAction.Action(beat + length * 2, delegate { PlayPiano(beat + length * 2, length, note3); }),
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new BeatAction.Action(beat + length * 3, delegate { PlayPiano(beat + length * 3, length, note4); }),
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new BeatAction.Action(beat + length * 4, delegate { PlayPiano(beat + length * 4, 1f, note5); }),
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new BeatAction.Action(beat + length * 4, delegate { PlayPiano(beat + length * 4, 1f, note6); }),
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});
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}
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}
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} |