using UnityEngine; using CnControls; using Fusion; public enum SurfaceDetection { RayCast, SphereCast } public class VehicleController : NetworkBehaviour { [SerializeField] float currentSpeed = 0f; [SerializeField] float steeringAI = 0f; [SerializeField] bool isAIControlled = false; [SerializeField] SurfaceDetection groundDetection = SurfaceDetection.RayCast; [SerializeField] LayerMask driveableSurface = -1; [SerializeField] float maxSpeed = 100f; [SerializeField] float baseAcceleration = 10f; [SerializeField] float steeringSensitivity = 10f; [SerializeField] float gravityForce = 9.8f; [SerializeField] float downforce = 5f; [SerializeField] float brakeThreshold = 30f; [SerializeField] float targetStoppingDistance = 5f; [SerializeField] bool allowAirControl = false; [SerializeField] AnimationCurve _frictionCurve = new AnimationCurve(); [SerializeField] AnimationCurve _turnCurve = new AnimationCurve(); [SerializeField, Range(0, 10)] float bodyTiltAmount = 0.5f; [SerializeField] Transform carBodyVisual = null; [SerializeField, Range(0.1f, 1f)] float skidMarkWidth = 0.25f; [SerializeField, Range(0.1f, 10f)] float skidMarkDuration = 5f; [SerializeField] Transform wheelFrontLeft = null; [SerializeField] Transform wheelFrontRight = null; [SerializeField] Transform wheelRearLeft = null; [SerializeField] Transform wheelRearRight = null; [SerializeField] Transform frontLeftAxle = null; [SerializeField] Transform frontRightAxle = null; [SerializeField] GameObject speedVisualEffects = null; [SerializeField] Rigidbody sphereRigidbody = null; [SerializeField] PhysicMaterial wheelFrictionMaterial = null; [SerializeField] Transform cameraFollowTarget = null; private bool isRunning = false; private bool isOnGround = false; private bool hasTurboBoost = true; public bool nosActive = false; private float accelerationInput = 0f; private float brakeInput = 0f; private float accelerationForce = 0f; private float steeringSign = 0f; private float inputHorizontal = 0f; private float inputVertical = 0f; private float wheelRadius = 0f; private float desiredTurnAngle = 0f; private float distanceToTarget = 0f; private float angleDifference = 0f; private float maxGroundDistance = 0f; private float counterSteerValue = 0f; private float steeringMultiplier = 0f; private Vector3 velocityLocal = Vector3.zero; private Vector3 forwardDirection = Vector3.zero; private Vector3 directionToTarget = Vector3.zero; private Vector3 movementDirection = Vector3.zero; private RaycastHit surfaceHit; private Rigidbody vehicleRigidbody = null; private VehicleTracker targetTracker = null; public bool AIControlled => isAIControlled; public bool Running => isRunning; public bool Grounded => isOnGround; public float SkidWidth => skidMarkWidth; public float SkidDuration => skidMarkDuration; public float CurrentSpeed => velocityLocal.z; public float MaximumSpeed => maxSpeed; public bool InputsActive => inputHorizontal != 0 || inputVertical != 0 || nosActive; public NOSController nosController; internal float SteeringSensitivity { get => steeringSensitivity; set => steeringSensitivity = value; } public Vector3 LocalVelocity => velocityLocal; public Transform FollowTarget => cameraFollowTarget; [Range(0.3f, 1f)] public float steeringFactor = 1f; public override void Spawned() { base.Spawned(); InitializeVehicle(); bool isLocalPlayer = Object.HasInputAuthority; // true on the runner that owns this object bool isHostRunner = Runner.IsServer; // true on the host’s runner Debug.Log("Spawned"); // if (local && hostRunner) OR (remote && clientRunner) ⇒ this is the host’s car if (isLocalPlayer == isHostRunner) gameObject.name = "PlayerHost"; else gameObject.name = "PlayerClient"; } // 1) Fusion will call this every tick to collect local input public override void FixedUpdateNetwork() { if (!isRunning || !RaceCountdownManager.Instance || !RaceCountdownManager.Instance.RaceStarted) return; if (/*Object.HasInputAuthority && */GetInput(out CarNetworkInput data)) { inputHorizontal = data.Horizontal; inputVertical = data.Vertical; if (data.NOS) ActivateNOS(); } // ✅ Only simulate physics on authoritative runner //if (!Object.HasStateAuthority) return; ApplyControls(); CheckGround(); HandleMovement(); UpdateVisuals(); // OK on all clients } // 2) Fusion runs your simulation here instead of Update/FixedUpdate //public override void FixedUpdateNetwork() //{ // if (!isRunning || !RaceCountdownManager.Instance || !RaceCountdownManager.Instance.RaceStarted) // return; // if (!Object.HasInputAuthority) // { // Debug.Log("🚫 No Input Authority on this player"); // return; // } // if (Object.HasInputAuthority && GetInput(out CarNetworkInput data)) // { // inputHorizontal = data.Horizontal; // inputVertical = data.Vertical; // Debug.Log("inputVertical: " + inputVertical); // Debug.Log("inputHorizontal : " + inputHorizontal); // if (data.NOS) // ActivateNOS(); // ApplyControls(); // CheckGround(); // HandleMovement(); // } // UpdateVisuals(); //} private void Awake() { vehicleRigidbody = GetComponent(); targetTracker = GetComponent(); wheelRadius = sphereRigidbody.GetComponent().radius; nosController = GetComponent(); maxGroundDistance = wheelRadius + 0.5f; InitializeVehicle(); } public void InitializeVehicle() { isRunning = true; if (!isAIControlled) accelerationForce = baseAcceleration; } public void StopVehicle() { isRunning = false; velocityLocal = Vector3.zero; currentSpeed = 0f; steeringAI = 0f; } //private void Update() //{ // if (!isRunning) return; // UpdateVisuals(); // ProcessInputs(); // ApplyControls(); //} private void ProcessInputs() { inputVertical = CnInputManager.GetAxis("Vertical"); inputHorizontal = CnInputManager.GetAxis("Horizontal"); } private void UpdateVisuals() { counterSteerValue = (Mathf.Abs(velocityLocal.x) > 20f) ? -1f : 1f; if (wheelFrontLeft) wheelFrontLeft.localRotation = Quaternion.Slerp(wheelFrontLeft.localRotation, Quaternion.Euler(0, 45f * counterSteerValue * steeringAI, 0), 0.1f); if (wheelFrontRight) wheelFrontRight.localRotation = Quaternion.Slerp(wheelFrontRight.localRotation, Quaternion.Euler(0, 45f * counterSteerValue * steeringAI, 0), 0.1f); frontLeftAxle?.Rotate(Vector3.right * (CurrentSpeed * 0.75f)); frontRightAxle?.Rotate(Vector3.right * (CurrentSpeed * 0.75f)); wheelRearLeft?.Rotate(Vector3.right * (CurrentSpeed * 0.75f)); wheelRearRight?.Rotate(Vector3.right * (CurrentSpeed * 0.75f)); if (carBodyVisual) { if (velocityLocal.z > 1) carBodyVisual.localRotation = Quaternion.Slerp(carBodyVisual.localRotation, Quaternion.Euler(Mathf.Lerp(0, -5, velocityLocal.z / maxSpeed), 0, Mathf.Clamp(desiredTurnAngle * steeringAI, -bodyTiltAmount, bodyTiltAmount)), 0.05f); else carBodyVisual.localRotation = Quaternion.Slerp(carBodyVisual.localRotation, Quaternion.identity, 0.05f); } if (speedVisualEffects) speedVisualEffects.SetActive(velocityLocal.z > 10); } private void ApplyControls() { Vector3 targetPoint = targetTracker.TargetPos; targetPoint.y = transform.position.y; directionToTarget = (targetPoint - transform.position).normalized; forwardDirection = transform.forward.normalized; desiredTurnAngle = Mathf.Abs(Vector3.Angle(forwardDirection, Vector3.ProjectOnPlane(directionToTarget, transform.up))); distanceToTarget = Vector3.Distance(transform.position, targetTracker.TargetPos); movementDirection = (targetTracker.TargetPos - transform.position).normalized; float alignment = Vector3.Dot(transform.forward, movementDirection); angleDifference = Vector3.Angle(transform.forward, movementDirection); brakeInput = 0f; if (distanceToTarget > targetStoppingDistance) { accelerationInput = alignment > 0f ? inputVertical : (distanceToTarget > 5f ? inputVertical : -1f); steeringAI = (Vector3.SignedAngle(transform.forward, movementDirection, Vector3.up) > 0f ? 1f : -1f) * _turnCurve.Evaluate(desiredTurnAngle / 160f); } else { steeringAI = 0f; } if (!isAIControlled) steeringAI += inputHorizontal; currentSpeed = Mathf.Round(CurrentSpeed); } //private void FixedUpdate() //{ // if (!isRunning) return; // CheckGround(); // HandleMovement(); //} private void CheckGround() { isOnGround = true; //if (groundDetection == SurfaceDetection.RayCast) //{ // isOnGround = Physics.Raycast(sphereRigidbody.position, Vector3.down, out surfaceHit, maxGroundDistance, driveableSurface) // || Physics.Raycast(sphereRigidbody.position + Vector3.forward * 3f, Vector3.down, out surfaceHit, maxGroundDistance, driveableSurface) // || Physics.Raycast(sphereRigidbody.position - Vector3.forward * 3f, Vector3.down, out surfaceHit, maxGroundDistance, driveableSurface); //} //else if (groundDetection == SurfaceDetection.SphereCast) //{ // isOnGround = Physics.SphereCast(sphereRigidbody.position + wheelRadius * Vector3.up, wheelRadius + 0.25f, -transform.up, out surfaceHit, maxGroundDistance, driveableSurface); //} //else isOnGround = false; } private void HandleMovement() { if (!Object.HasInputAuthority) { Debug.LogWarning("Client without InputAuthority is simulating movement — this should not happen!"); } else { if (Object.HasStateAuthority || Object.HasInputAuthority) { velocityLocal = vehicleRigidbody.transform.InverseTransformDirection(vehicleRigidbody.velocity); } // velocityLocal = vehicleRigidbody.transform.InverseTransformDirection(vehicleRigidbody.velocity); if (float.IsNaN(velocityLocal.z) || float.IsInfinity(velocityLocal.z)) { Debug.LogWarning($"⚠ Detected invalid velocity: {velocityLocal}. Resetting to zero."); velocityLocal = Vector3.zero; } if (angleDifference > brakeThreshold && velocityLocal.z > 15f) { wheelFrictionMaterial.dynamicFriction = 0.01f; } else { wheelFrictionMaterial.dynamicFriction = _frictionCurve.Evaluate(Mathf.Abs(velocityLocal.x / 100)); } steeringMultiplier = _turnCurve.Evaluate(velocityLocal.magnitude / maxSpeed); if (Grounded) { steeringSign = Mathf.Sign(velocityLocal.z); if (Mathf.Abs(accelerationInput) > 0.1f) vehicleRigidbody.AddTorque(Vector3.up * (steeringAI * steeringSign * steeringSensitivity * 100f * steeringMultiplier * steeringFactor)); if (Mathf.Abs(accelerationInput) > 0.1f) sphereRigidbody.velocity = Vector3.Lerp(sphereRigidbody.velocity, vehicleRigidbody.transform.forward * (accelerationInput * maxSpeed), accelerationForce / 10f * Time.fixedDeltaTime); sphereRigidbody.AddForce(-transform.up * (downforce * sphereRigidbody.mass)); vehicleRigidbody.MoveRotation( Quaternion.Slerp( vehicleRigidbody.rotation, Quaternion.FromToRotation(vehicleRigidbody.transform.up, surfaceHit.normal) * vehicleRigidbody.transform.rotation, 0.12f ) ); } else { if (allowAirControl) vehicleRigidbody.AddTorque(Vector3.up * (steeringAI * steeringSensitivity * 100f * steeringMultiplier * steeringFactor)); sphereRigidbody.velocity = Vector3.Lerp( sphereRigidbody.velocity, (vehicleRigidbody.transform.forward * (accelerationInput * maxSpeed)) + Vector3.down * (gravityForce * 9.8f), (accelerationForce / 25f) * Time.deltaTime ); } } } internal void DisableVehicle() { enabled = false; sphereRigidbody.gameObject.SetActive(false); sphereRigidbody.velocity = Vector3.zero; sphereRigidbody.Sleep(); vehicleRigidbody.velocity = Vector3.zero; vehicleRigidbody.Sleep(); } public void ActivateNOS() { ActivateNOS(true); //nosController._isBoosting = true; } public void ActivateNOS(bool active, float bonusAcceleration = 10f) { nosActive = active; accelerationForce = active ? accelerationForce + bonusAcceleration : baseAcceleration; } internal void EnableVehicle() { enabled = true; sphereRigidbody.gameObject.SetActive(true); } }