using System.Collections; using System.Collections.Generic; using UnityEngine; using HeavenStudio.Util; using System.Linq; using Jukebox; using Jukebox.Legacy; namespace HeavenStudio { public class GameCamera : MonoBehaviour { public static GameCamera instance { get; private set; } public new Camera camera; public enum CameraAxis { All, X, Y, Z } private List positionEvents = new(); private List rotationEvents = new(); private List shakeEvents = new(); private List colorEvents = new(); /** default cam position, for quick-resetting **/ public static Vector3 defaultPosition = new Vector3(0, 0, -10); public static Vector3 defaultRotEluer = new Vector3(0, 0, 0); public static Vector3 defaultShake = new Vector3(0, 0, 0); public static float defaultFoV = 53.15f; /** camera's current transformation **/ private static Vector3 position; private static Vector3 rotEluer; private static Vector3 shakeResult; /** camera's last transformation **/ private static Vector3 positionLast; private static Vector3 rotEluerLast; private static Vector3 shakeLast; /** transformations to apply *after* the global transform, to use in minigame scripts (Spaceball, Rhythm Rally, Built to Scale, etc.) and NOT in the editor **/ public static Vector3 additionalPosition; public static Vector3 additionalRotEluer; public static Vector3 additionalScale; public static float additionalFoV; [Header("Components")] public Color baseColor; public static Color currentColor; private void Awake() { instance = this; camera = this.GetComponent(); } private void Start() { GameManager.instance.onBeatChanged += OnBeatChanged; camera.backgroundColor = baseColor; ResetTransforms(); ResetAdditionalTransforms(); currentColor = baseColor; positionLast = defaultPosition; rotEluerLast = defaultRotEluer; } public void OnBeatChanged(double beat) { ResetTransforms(); ResetAdditionalTransforms(); currentColor = baseColor; positionLast = defaultPosition; rotEluerLast = defaultRotEluer; // this entire thing is a mess redo it later //pos positionEvents = EventCaller.GetAllInGameManagerList("vfx", new string[] { "move camera" }); // legacy event positionEvents.AddRange(EventCaller.GetAllInGameManagerList("gameManager", new string[] { "move camera" })); //rot rotationEvents = EventCaller.GetAllInGameManagerList("vfx", new string[] { "rotate camera" }); positionEvents.AddRange(EventCaller.GetAllInGameManagerList("gameManager", new string[] { "rotate camera" })); //screen shake time baybee shakeEvents = EventCaller.GetAllInGameManagerList("vfx", new string[] { "screen shake" }); //color/colour time baybee colorEvents = EventCaller.GetAllInGameManagerList("vfx", new string[] { "camera background color" }); UpdateCameraTranslate(); UpdateCameraRotate(); SetShakeIntensity(); UpdateCameraColor(); } private void Update() { UpdateCameraTranslate(); UpdateCameraRotate(); SetShakeIntensity(); UpdateCameraColor(); } private void LateUpdate() { Camera cam = GetCamera(); // rotate position by additional rotation Vector3 userPos = Quaternion.Euler(additionalRotEluer) * position; cam.transform.localPosition = userPos + additionalPosition + shakeResult; cam.transform.eulerAngles = rotEluer + additionalRotEluer; cam.fieldOfView = additionalFoV; cam.backgroundColor = currentColor; if (!StaticCamera.instance.usingMinigameAmbientColor) StaticCamera.instance.SetAmbientGlowColour(currentColor, false, false); } private void UpdateCameraColor() { foreach (var e in colorEvents) { float prog = Conductor.instance.GetPositionFromBeat(e.beat, e.length); if (prog >= 0f) { Util.EasingFunction.Function func = Util.EasingFunction.GetEasingFunction((Util.EasingFunction.Ease)e["ease"]); float newColorR = func(e["color"].r, e["color2"].r, prog); float newColorG = func(e["color"].g, e["color2"].g, prog); float newColorB = func(e["color"].b, e["color2"].b, prog); currentColor = new Color(newColorR, newColorG, newColorB); } if (prog > 1f) { currentColor = e["color2"]; } } } private void UpdateCameraTranslate() { foreach (var e in positionEvents) { float prog = Conductor.instance.GetPositionFromBeat(e.beat, e.length); if (prog >= 0f) { Util.EasingFunction.Function func = Util.EasingFunction.GetEasingFunction((Util.EasingFunction.Ease) e["ease"]); switch (e["axis"]) { case (int) CameraAxis.X: position.x = func(positionLast.x, e["valA"], Mathf.Min(prog, 1f)); break; case (int) CameraAxis.Y: position.y = func(positionLast.y, e["valB"], Mathf.Min(prog, 1f)); break; case (int) CameraAxis.Z: position.z = func(positionLast.z, -e["valC"], Mathf.Min(prog, 1f)); break; default: float dx = func(positionLast.x, e["valA"], Mathf.Min(prog, 1f)); float dy = func(positionLast.y, e["valB"], Mathf.Min(prog, 1f)); float dz = func(positionLast.z, -e["valC"], Mathf.Min(prog, 1f)); position = new Vector3(dx, dy, dz); break; } } if (prog > 1f) { switch (e["axis"]) { case (int) CameraAxis.X: positionLast.x = e["valA"]; break; case (int) CameraAxis.Y: positionLast.y = e["valB"]; break; case (int) CameraAxis.Z: positionLast.z = -e["valC"]; break; default: positionLast = new Vector3(e["valA"], e["valB"], -e["valC"]); break; } } } } private void UpdateCameraRotate() { foreach (var e in rotationEvents) { float prog = Conductor.instance.GetPositionFromBeat(e.beat, e.length); if (prog >= 0f) { Util.EasingFunction.Function func = Util.EasingFunction.GetEasingFunction((Util.EasingFunction.Ease) e["ease"]); switch (e["axis"]) { case (int) CameraAxis.X: rotEluer.x = func(rotEluerLast.x, e["valA"], Mathf.Min(prog, 1f)); break; case (int) CameraAxis.Y: rotEluer.y = func(rotEluerLast.y, e["valB"], Mathf.Min(prog, 1f)); break; case (int) CameraAxis.Z: rotEluer.z = func(rotEluerLast.z, -e["valC"], Mathf.Min(prog, 1f)); break; default: float dx = func(rotEluerLast.x, e["valA"], Mathf.Min(prog, 1f)); float dy = func(rotEluerLast.y, e["valB"], Mathf.Min(prog, 1f)); float dz = func(rotEluerLast.z, -e["valC"], Mathf.Min(prog, 1f)); rotEluer = new Vector3(dx, dy, dz); //I'm stupid and forgot to negate the rotation gfd 😢 break; } } if (prog > 1f) { switch (e["axis"]) { case (int) CameraAxis.X: rotEluerLast.x = e["valA"]; break; case (int) CameraAxis.Y: rotEluerLast.y = e["valB"]; break; case (int) CameraAxis.Z: rotEluerLast.z = -e["valC"]; break; default: rotEluerLast = new Vector3(e["valA"], e["valB"], -e["valC"]); break; } rotEluerLast = new Vector3(e["valA"], e["valB"], -e["valC"]); } } } private void SetShakeIntensity() { foreach (var e in shakeEvents) { float prog = Conductor.instance.GetPositionFromBeat(e.beat, e.length); if (prog >= 0f) { float fac = Mathf.Cos(Time.time * 80f) * 0.5f; shakeResult = new Vector3(fac * e["valA"], fac * e["valB"]); } if (prog > 1f) { shakeResult = new Vector3(0, 0); } } } public static void ResetTransforms() { position = defaultPosition; rotEluer = defaultRotEluer; shakeResult = defaultShake; } public static void ResetAdditionalTransforms() { additionalPosition = new Vector3(0, 0, 0); additionalRotEluer = new Vector3(0, 0, 0); additionalFoV = defaultFoV; } public static Camera GetCamera() { return instance.camera; } } }