#if !UNITY_2019_3_OR_NEWER #define CINEMACHINE_UNITY_ANIMATION #endif using Cinemachine.Utility; using System; using System.Collections.Generic; using UnityEngine; namespace Cinemachine { #if CINEMACHINE_UNITY_ANIMATION /// /// This is a virtual camera "manager" that owns and manages a collection /// of child Virtual Cameras. These child vcams are mapped to individual states in /// an animation state machine, allowing you to associate specific vcams to specific /// animation states. When that state is active in the state machine, then the /// associated camera will be activated. /// /// You can define custom blends and transitions between child cameras. /// /// In order to use this behaviour, you must have an animated target (i.e. an object /// animated with a state machine) to drive the behaviour. /// [DocumentationSorting(DocumentationSortingAttribute.Level.UserRef)] [DisallowMultipleComponent] [ExecuteAlways] [ExcludeFromPreset] [AddComponentMenu("Cinemachine/CinemachineStateDrivenCamera")] [HelpURL(Documentation.BaseURL + "manual/CinemachineStateDrivenCamera.html")] public class CinemachineStateDrivenCamera : CinemachineVirtualCameraBase { /// Default object for the camera children to look at (the aim target), /// if not specified in a child rig. May be empty [Tooltip("Default object for the camera children to look at (the aim target), " + "if not specified in a child camera. May be empty if all of the children " + "define targets of their own.")] [NoSaveDuringPlay] [VcamTargetProperty] public Transform m_LookAt = null; /// Default object for the camera children wants to move with (the body target), /// if not specified in a child rig. May be empty [Tooltip("Default object for the camera children wants to move with (the body target), " + "if not specified in a child camera. May be empty if all of the children " + "define targets of their own.")] [NoSaveDuringPlay] [VcamTargetProperty] public Transform m_Follow = null; /// The state machine whose state changes will drive this camera's choice of active child [Space] [Tooltip("The state machine whose state changes will drive this camera's choice of active child")] [NoSaveDuringPlay] public Animator m_AnimatedTarget; /// Which layer in the target FSM to observe [Tooltip("Which layer in the target state machine to observe")] [NoSaveDuringPlay] public int m_LayerIndex; /// When enabled, the current camera and blend will be indicated in /// the game window, for debugging [Tooltip("When enabled, the current child camera and blend will be indicated in " + "the game window, for debugging")] public bool m_ShowDebugText = false; /// Internal API for the editor. Do not use this field [SerializeField][HideInInspector][NoSaveDuringPlay] internal CinemachineVirtualCameraBase[] m_ChildCameras = null; /// This represents a single instrunction to the StateDrivenCamera. It associates /// an state from the state machine with a child Virtual Camera, and also holds /// activation tuning parameters. [Serializable] public struct Instruction { /// The full hash of the animation state [Tooltip("The full hash of the animation state")] public int m_FullHash; /// The virtual camera to activate when the animation state becomes active [Tooltip("The virtual camera to activate when the animation state becomes active")] public CinemachineVirtualCameraBase m_VirtualCamera; /// How long to wait (in seconds) before activating the virtual camera. /// This filters out very short state durations [Tooltip("How long to wait (in seconds) before activating the virtual camera. " + "This filters out very short state durations")] public float m_ActivateAfter; /// The minimum length of time (in seconds) to keep a virtual camera active [Tooltip("The minimum length of time (in seconds) to keep a virtual camera active")] public float m_MinDuration; }; /// The set of instructions associating virtual cameras with states. /// These instructions are used to choose the live child at any given moment [Tooltip("The set of instructions associating virtual cameras with states. " + "These instructions are used to choose the live child at any given moment")] public Instruction[] m_Instructions; /// /// The blend which is used if you don't explicitly define a blend between two Virtual Camera children. /// [CinemachineBlendDefinitionProperty] [Tooltip("The blend which is used if you don't explicitly define a blend between two Virtual Camera children")] public CinemachineBlendDefinition m_DefaultBlend = new CinemachineBlendDefinition(CinemachineBlendDefinition.Style.EaseInOut, 0.5f); /// /// This is the asset which contains custom settings for specific child blends. /// [Tooltip("This is the asset which contains custom settings for specific child blends")] public CinemachineBlenderSettings m_CustomBlends = null; /// Internal API for the Inspector editor. This implements nested states. [Serializable] [DocumentationSorting(DocumentationSortingAttribute.Level.Undoc)] internal struct ParentHash { /// Internal API for the Inspector editor public int m_Hash; /// Internal API for the Inspector editor public int m_ParentHash; /// Internal API for the Inspector editor public ParentHash(int h, int p) { m_Hash = h; m_ParentHash = p; } } /// Internal API for the Inspector editor [HideInInspector][SerializeField] internal ParentHash[] m_ParentHash = null; /// Gets a brief debug description of this virtual camera, for use when displayiong debug info public override string Description { get { // Show the active camera and blend if (mActiveBlend != null) return mActiveBlend.Description; ICinemachineCamera vcam = LiveChild; if (vcam == null) return "(none)"; var sb = CinemachineDebug.SBFromPool(); sb.Append("["); sb.Append(vcam.Name); sb.Append("]"); string text = sb.ToString(); CinemachineDebug.ReturnToPool(sb); return text; } } /// Get the current "best" child virtual camera, that would be chosen /// if the State Driven Camera were active. public ICinemachineCamera LiveChild { get; set; } /// Check whether the vcam a live child of this camera. /// The Virtual Camera to check /// If true, will only return true if this vcam is the dominat live child /// True if the vcam is currently actively influencing the state of this vcam public override bool IsLiveChild(ICinemachineCamera vcam, bool dominantChildOnly = false) { return vcam == LiveChild || (mActiveBlend != null && mActiveBlend.Uses(vcam)); } /// The State of the current live child public override CameraState State { get { return m_State; } } /// Get the current LookAt target. Returns parent's LookAt if parent /// is non-null and no specific LookAt defined for this camera override public Transform LookAt { get { return ResolveLookAt(m_LookAt); } set { m_LookAt = value; } } /// Get the current Follow target. Returns parent's Follow if parent /// is non-null and no specific Follow defined for this camera override public Transform Follow { get { return ResolveFollow(m_Follow); } set { m_Follow = value; } } /// This is called to notify the vcam that a target got warped, /// so that the vcam can update its internal state to make the camera /// also warp seamlessly. /// The object that was warped /// The amount the target's position changed public override void OnTargetObjectWarped(Transform target, Vector3 positionDelta) { UpdateListOfChildren(); foreach (var vcam in m_ChildCameras) vcam.OnTargetObjectWarped(target, positionDelta); base.OnTargetObjectWarped(target, positionDelta); } /// /// Force the virtual camera to assume a given position and orientation /// /// Worldspace pposition to take /// Worldspace orientation to take public override void ForceCameraPosition(Vector3 pos, Quaternion rot) { UpdateListOfChildren(); foreach (var vcam in m_ChildCameras) vcam.ForceCameraPosition(pos, rot); base.ForceCameraPosition(pos, rot); } /// Notification that this virtual camera is going live. /// The camera being deactivated. May be null. /// Default world Up, set by the CinemachineBrain /// Delta time for time-based effects (ignore if less than or equal to 0) public override void OnTransitionFromCamera( ICinemachineCamera fromCam, Vector3 worldUp, float deltaTime) { base.OnTransitionFromCamera(fromCam, worldUp, deltaTime); InvokeOnTransitionInExtensions(fromCam, worldUp, deltaTime); m_TransitioningFrom = fromCam; InternalUpdateCameraState(worldUp, deltaTime); } ICinemachineCamera m_TransitioningFrom; /// Internal use only. Do not call this method. /// Called by CinemachineCore at designated update time /// so the vcam can position itself and track its targets. This implementation /// updates all the children, chooses the best one, and implements any required blending. /// Default world Up, set by the CinemachineBrain /// Delta time for time-based effects (ignore if less than or equal to 0) public override void InternalUpdateCameraState(Vector3 worldUp, float deltaTime) { UpdateListOfChildren(); CinemachineVirtualCameraBase best = ChooseCurrentCamera(); if (best != null && !best.gameObject.activeInHierarchy) { best.gameObject.SetActive(true); best.UpdateCameraState(worldUp, deltaTime); } ICinemachineCamera previousCam = LiveChild; LiveChild = best; // Are we transitioning cameras? if (previousCam != LiveChild && LiveChild != null) { // Notify incoming camera of transition LiveChild.OnTransitionFromCamera(previousCam, worldUp, deltaTime); // Generate Camera Activation event in the brain if live CinemachineCore.Instance.GenerateCameraActivationEvent(LiveChild, previousCam); if (previousCam != null) { // Create a blend (will be null if a cut) mActiveBlend = CreateBlend( previousCam, LiveChild, LookupBlend(previousCam, LiveChild), mActiveBlend); // If cutting, generate a camera cut event if live if (mActiveBlend == null || !mActiveBlend.Uses(previousCam)) CinemachineCore.Instance.GenerateCameraCutEvent(LiveChild); } } // Advance the current blend (if any) if (mActiveBlend != null) { mActiveBlend.TimeInBlend += (deltaTime >= 0) ? deltaTime : mActiveBlend.Duration; if (mActiveBlend.IsComplete) mActiveBlend = null; } if (mActiveBlend != null) { mActiveBlend.UpdateCameraState(worldUp, deltaTime); m_State = mActiveBlend.State; } else if (LiveChild != null) { if (m_TransitioningFrom != null) LiveChild.OnTransitionFromCamera(m_TransitioningFrom , worldUp, deltaTime); m_State = LiveChild.State; } m_TransitioningFrom = null; InvokePostPipelineStageCallback(this, CinemachineCore.Stage.Finalize, ref m_State, deltaTime); PreviousStateIsValid = true; } /// Makes sure the internal child cache is up to date protected override void OnEnable() { base.OnEnable(); InvalidateListOfChildren(); mActiveBlend = null; CinemachineDebug.OnGUIHandlers -= OnGuiHandler; CinemachineDebug.OnGUIHandlers += OnGuiHandler; } /// /// Uninstall the GUI handler /// protected override void OnDisable() { base.OnDisable(); CinemachineDebug.OnGUIHandlers -= OnGuiHandler; } /// Makes sure the internal child cache is up to date public void OnTransformChildrenChanged() { InvalidateListOfChildren(); } /// Will only be called if Unity Editor - never in build private void OnGuiHandler() { if (!m_ShowDebugText) CinemachineDebug.ReleaseScreenPos(this); else { var sb = CinemachineDebug.SBFromPool(); sb.Append(Name); sb.Append(": "); sb.Append(Description); string text = sb.ToString(); Rect r = CinemachineDebug.GetScreenPos(this, text, GUI.skin.box); GUI.Label(r, text, GUI.skin.box); CinemachineDebug.ReturnToPool(sb); } } CameraState m_State = CameraState.Default; /// The list of child cameras. These are just the immediate children in the hierarchy. public CinemachineVirtualCameraBase[] ChildCameras { get { UpdateListOfChildren(); return m_ChildCameras; }} /// Is there a blend in progress? public bool IsBlending { get { return mActiveBlend != null; } } /// API for the inspector editor. Animation module does not have hashes /// for state parents, so we have to invent them in order to implement nested state /// handling /// Parent state's hash /// The clip to create the fake hash for /// The fake hash public static int CreateFakeHash(int parentHash, AnimationClip clip) { return Animator.StringToHash(parentHash.ToString() + "_" + clip.name); } // Avoid garbage string manipulations at runtime struct HashPair { public int parentHash; public int hash; } Dictionary> mHashCache; int LookupFakeHash(int parentHash, AnimationClip clip) { if (mHashCache == null) mHashCache = new Dictionary>(); List list = null; if (!mHashCache.TryGetValue(clip, out list)) { list = new List(); mHashCache[clip] = list; } for (int i = 0; i < list.Count; ++i) if (list[i].parentHash == parentHash) return list[i].hash; int newHash = CreateFakeHash(parentHash, clip); list.Add(new HashPair() { parentHash = parentHash, hash = newHash }); mStateParentLookup[newHash] = parentHash; return newHash; } float mActivationTime = 0; Instruction mActiveInstruction; float mPendingActivationTime = 0; Instruction mPendingInstruction; private CinemachineBlend mActiveBlend = null; void InvalidateListOfChildren() { m_ChildCameras = null; LiveChild = null; } void UpdateListOfChildren() { if (m_ChildCameras != null && mInstructionDictionary != null && mStateParentLookup != null) return; List list = new List(); CinemachineVirtualCameraBase[] kids = GetComponentsInChildren(true); foreach (CinemachineVirtualCameraBase k in kids) if (k.transform.parent == transform) list.Add(k); m_ChildCameras = list.ToArray(); ValidateInstructions(); } private Dictionary mInstructionDictionary; private Dictionary mStateParentLookup; /// Internal API for the inspector editor. internal void ValidateInstructions() { if (m_Instructions == null) m_Instructions = new Instruction[0]; mInstructionDictionary = new Dictionary(); for (int i = 0; i < m_Instructions.Length; ++i) { if (m_Instructions[i].m_VirtualCamera != null && m_Instructions[i].m_VirtualCamera.transform.parent != transform) { m_Instructions[i].m_VirtualCamera = null; } mInstructionDictionary[m_Instructions[i].m_FullHash] = i; } // Create the parent lookup mStateParentLookup = new Dictionary(); if (m_ParentHash != null) foreach (var i in m_ParentHash) mStateParentLookup[i.m_Hash] = i.m_ParentHash; // Zap the cached current instructions mHashCache = null; mActivationTime = mPendingActivationTime = 0; mActiveBlend = null; } List m_clipInfoList = new List(); private CinemachineVirtualCameraBase ChooseCurrentCamera() { if (m_ChildCameras == null || m_ChildCameras.Length == 0) { mActivationTime = 0; return null; } CinemachineVirtualCameraBase defaultCam = m_ChildCameras[0]; if (m_AnimatedTarget == null || !m_AnimatedTarget.gameObject.activeSelf || m_AnimatedTarget.runtimeAnimatorController == null || m_LayerIndex < 0 || !m_AnimatedTarget.hasBoundPlayables || m_LayerIndex >= m_AnimatedTarget.layerCount) { mActivationTime = 0; return defaultCam; } // Get the current state int hash; if (m_AnimatedTarget.IsInTransition(m_LayerIndex)) { // Force "current" state to be the state we're transitioning to AnimatorStateInfo info = m_AnimatedTarget.GetNextAnimatorStateInfo(m_LayerIndex); m_AnimatedTarget.GetNextAnimatorClipInfo(m_LayerIndex, m_clipInfoList); hash = GetClipHash(info.fullPathHash, m_clipInfoList); } else { AnimatorStateInfo info = m_AnimatedTarget.GetCurrentAnimatorStateInfo(m_LayerIndex); m_AnimatedTarget.GetCurrentAnimatorClipInfo(m_LayerIndex, m_clipInfoList); hash = GetClipHash(info.fullPathHash, m_clipInfoList); } // If we don't have an instruction for this state, find a suitable default while (hash != 0 && !mInstructionDictionary.ContainsKey(hash)) hash = mStateParentLookup.ContainsKey(hash) ? mStateParentLookup[hash] : 0; float now = CinemachineCore.CurrentTime; if (mActivationTime != 0) { // Is it active now? if (mActiveInstruction.m_FullHash == hash) { // Yes, cancel any pending mPendingActivationTime = 0; return mActiveInstruction.m_VirtualCamera; } // Is it pending? if (PreviousStateIsValid) { if (mPendingActivationTime != 0 && mPendingInstruction.m_FullHash == hash) { // Has it been pending long enough, and are we allowed to switch away // from the active action? if ((now - mPendingActivationTime) > mPendingInstruction.m_ActivateAfter && ((now - mActivationTime) > mActiveInstruction.m_MinDuration || mPendingInstruction.m_VirtualCamera.Priority > mActiveInstruction.m_VirtualCamera.Priority)) { // Yes, activate it now mActiveInstruction = mPendingInstruction; mActivationTime = now; mPendingActivationTime = 0; } return mActiveInstruction.m_VirtualCamera; } } } // Neither active nor pending. mPendingActivationTime = 0; // cancel the pending, if any if (!mInstructionDictionary.ContainsKey(hash)) { // No defaults set, we just ignore this state if (mActivationTime != 0) return mActiveInstruction.m_VirtualCamera; return defaultCam; } // Can we activate it now? Instruction newInstr = m_Instructions[mInstructionDictionary[hash]]; if (newInstr.m_VirtualCamera == null) newInstr.m_VirtualCamera = defaultCam; if (PreviousStateIsValid && mActivationTime > 0) { if (newInstr.m_ActivateAfter > 0 || ((now - mActivationTime) < mActiveInstruction.m_MinDuration && newInstr.m_VirtualCamera.Priority <= mActiveInstruction.m_VirtualCamera.Priority)) { // Too early - make it pending mPendingInstruction = newInstr; mPendingActivationTime = now; if (mActivationTime != 0) return mActiveInstruction.m_VirtualCamera; return defaultCam; } } // Activate now mActiveInstruction = newInstr; mActivationTime = now; return mActiveInstruction.m_VirtualCamera; } int GetClipHash(int hash, List clips) { // Find the strongest-weighted animation clip substate int bestClip = -1; for (int i = 0; i < clips.Count; ++i) if (bestClip < 0 || clips[i].weight > clips[bestClip].weight) bestClip = i; // Use its hash if (bestClip >= 0 && clips[bestClip].weight > 0) hash = LookupFakeHash(hash, clips[bestClip].clip); return hash; } private CinemachineBlendDefinition LookupBlend( ICinemachineCamera fromKey, ICinemachineCamera toKey) { // Get the blend curve that's most appropriate for these cameras CinemachineBlendDefinition blend = m_DefaultBlend; if (m_CustomBlends != null) { string fromCameraName = (fromKey != null) ? fromKey.Name : string.Empty; string toCameraName = (toKey != null) ? toKey.Name : string.Empty; blend = m_CustomBlends.GetBlendForVirtualCameras( fromCameraName, toCameraName, blend); } if (CinemachineCore.GetBlendOverride != null) blend = CinemachineCore.GetBlendOverride(fromKey, toKey, blend, this); return blend; } } #endif }