using UnityEngine;
using System.Collections;
namespace RootMotion {
///
/// 3rd person camera controller.
///
public class CameraController : MonoBehaviour {
// When to update the camera?
[System.Serializable]
public enum UpdateMode {
Update,
FixedUpdate,
LateUpdate,
FixedLateUpdate
}
public Transform target; // The target Transform to follow
public Transform rotationSpace; // If assigned, will use this Transform's rotation as the rotation space instead of the world space. Useful with spherical planets.
public UpdateMode updateMode = UpdateMode.LateUpdate; // When to update the camera?
public bool lockCursor = true; // If true, the mouse will be locked to screen center and hidden
[Header("Position")]
public bool smoothFollow; // If > 0, camera will smoothly interpolate towards the target
public Vector3 offset = new Vector3(0, 1.5f, 0.5f); // The offset from target relative to camera rotation
public float followSpeed = 10f; // Smooth follow speed
[Header("Rotation")]
public float rotationSensitivity = 3.5f; // The sensitivity of rotation
public float yMinLimit = -20; // Min vertical angle
public float yMaxLimit = 80; // Max vertical angle
public bool rotateAlways = true; // Always rotate to mouse?
public bool rotateOnLeftButton; // Rotate to mouse when left button is pressed?
public bool rotateOnRightButton; // Rotate to mouse when right button is pressed?
public bool rotateOnMiddleButton; // Rotate to mouse when middle button is pressed?
[Header("Distance")]
public float distance = 10.0f; // The current distance to target
public float minDistance = 4; // The minimum distance to target
public float maxDistance = 10; // The maximum distance to target
public float zoomSpeed = 10f; // The speed of interpolating the distance
public float zoomSensitivity = 1f; // The sensitivity of mouse zoom
[Header("Blocking")]
public LayerMask blockingLayers;
public float blockingRadius = 1f;
public float blockingSmoothTime = 0.1f;
[Range(0f, 1f)] public float blockedOffset = 0.5f;
public float x { get; private set; } // The current x rotation of the camera
public float y { get; private set; } // The current y rotation of the camera
public float distanceTarget { get; private set; } // Get/set distance
private Vector3 targetDistance, position;
private Quaternion rotation = Quaternion.identity;
private Vector3 smoothPosition;
private Camera cam;
private bool fixedFrame;
private float fixedDeltaTime;
private Quaternion r = Quaternion.identity;
private Vector3 lastUp;
private float blockedDistance = 10f, blockedDistanceV;
public void SetAngles(Quaternion rotation)
{
Vector3 euler = rotation.eulerAngles;
this.x = euler.y;
this.y = euler.x;
}
public void SetAngles(float yaw, float pitch)
{
this.x = yaw;
this.y = pitch;
}
// Initiate, set the params to the current transformation of the camera relative to the target
protected virtual void Awake () {
Vector3 angles = transform.eulerAngles;
x = angles.y;
y = angles.x;
distanceTarget = distance;
smoothPosition = transform.position;
cam = GetComponent();
lastUp = rotationSpace != null? rotationSpace.up: Vector3.up;
}
protected virtual void Update() {
if (updateMode == UpdateMode.Update) UpdateTransform();
}
protected virtual void FixedUpdate() {
fixedFrame = true;
fixedDeltaTime += Time.deltaTime;
if (updateMode == UpdateMode.FixedUpdate) UpdateTransform();
}
protected virtual void LateUpdate() {
UpdateInput();
if (updateMode == UpdateMode.LateUpdate) UpdateTransform();
if (updateMode == UpdateMode.FixedLateUpdate && fixedFrame) {
UpdateTransform(fixedDeltaTime);
fixedDeltaTime = 0f;
fixedFrame = false;
}
}
// Read the user input
public void UpdateInput() {
if (!cam.enabled) return;
// Cursors
Cursor.lockState = lockCursor? CursorLockMode.Locked: CursorLockMode.None;
Cursor.visible = lockCursor? false: true;
// Should we rotate the camera?
bool rotate = rotateAlways || (rotateOnLeftButton && Input.GetMouseButton(0)) || (rotateOnRightButton && Input.GetMouseButton(1)) || (rotateOnMiddleButton && Input.GetMouseButton(2));
// delta rotation
if (rotate) {
x += Input.GetAxis("Mouse X") * rotationSensitivity;
y = ClampAngle(y - Input.GetAxis("Mouse Y") * rotationSensitivity, yMinLimit, yMaxLimit);
}
// Distance
distanceTarget = Mathf.Clamp(distanceTarget + zoomAdd, minDistance, maxDistance);
}
// Update the camera transform
public void UpdateTransform() {
UpdateTransform(Time.deltaTime);
}
public void UpdateTransform(float deltaTime) {
if (!cam.enabled) return;
// Rotation
rotation = Quaternion.AngleAxis(x, Vector3.up) * Quaternion.AngleAxis(y, Vector3.right);
if (rotationSpace != null) {
r = Quaternion.FromToRotation(lastUp, rotationSpace.up) * r;
rotation = r * rotation;
lastUp = rotationSpace.up;
}
if (target != null) {
// Distance
distance += (distanceTarget - distance) * zoomSpeed * deltaTime;
// Smooth follow
if (!smoothFollow) smoothPosition = target.position;
else smoothPosition = Vector3.Lerp(smoothPosition, target.position, deltaTime * followSpeed);
// Position
Vector3 t = smoothPosition + rotation * offset;
Vector3 f = rotation * -Vector3.forward;
if (blockingLayers != -1) {
RaycastHit hit;
if (Physics.SphereCast (t, blockingRadius, f, out hit, distanceTarget - blockingRadius, blockingLayers)) {
//distance = hit.distance;
blockedDistance = Mathf.SmoothDamp(blockedDistance, hit.distance + blockingRadius * (1f - blockedOffset), ref blockedDistanceV, blockingSmoothTime);
} else blockedDistance = distanceTarget;
distance = Mathf.Min(distance, blockedDistance);
}
position = t + f * distance;
// Translating the camera
transform.position = position;
}
transform.rotation = rotation;
}
// Zoom input
private float zoomAdd {
get {
float scrollAxis = Input.GetAxis("Mouse ScrollWheel");
if (scrollAxis > 0) return -zoomSensitivity;
if (scrollAxis < 0) return zoomSensitivity;
return 0;
}
}
// Clamping Euler angles
private float ClampAngle (float angle, float min, float max) {
if (angle < -360) angle += 360;
if (angle > 360) angle -= 360;
return Mathf.Clamp (angle, min, max);
}
}
}