b486678290
Library -Artifacts
137 lines
4.5 KiB
C#
137 lines
4.5 KiB
C#
using UnityEngine;
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using Cinemachine;
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public class MoveAimTarget : MonoBehaviour
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{
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public CinemachineBrain Brain;
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public RectTransform ReticleImage;
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[Tooltip("How far to raycast to place the aim target")]
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public float AimDistance;
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[Tooltip("Objects on these layers will be detected")]
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public LayerMask CollideAgainst;
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[TagField]
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[Tooltip("Obstacles with this tag will be ignored. "
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+ "It's a good idea to set this field to the player's tag")]
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public string IgnoreTag = string.Empty;
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/// <summary>The Vertical axis. Value is -90..90. Controls the vertical orientation</summary>
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[Header("Axis Control")]
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[Tooltip("The Vertical axis. Value is -90..90. Controls the vertical orientation")]
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[AxisStateProperty]
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public AxisState VerticalAxis;
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/// <summary>The Horizontal axis. Value is -180..180. Controls the horizontal orientation</summary>
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[Tooltip("The Horizontal axis. Value is -180..180. Controls the horizontal orientation")]
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[AxisStateProperty]
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public AxisState HorizontalAxis;
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private void OnValidate()
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{
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VerticalAxis.Validate();
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HorizontalAxis.Validate();
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AimDistance = Mathf.Max(1, AimDistance);
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}
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private void Reset()
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{
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AimDistance = 200;
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ReticleImage = null;
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CollideAgainst = 1;
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IgnoreTag = string.Empty;
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VerticalAxis = new AxisState(-70, 70, false, false, 10f, 0.1f, 0.1f, "Mouse Y", true);
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VerticalAxis.m_SpeedMode = AxisState.SpeedMode.InputValueGain;
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HorizontalAxis = new AxisState(-180, 180, true, false, 10f, 0.1f, 0.1f, "Mouse X", false);
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HorizontalAxis.m_SpeedMode = AxisState.SpeedMode.InputValueGain;
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}
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private void OnEnable()
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{
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CinemachineCore.CameraUpdatedEvent.RemoveListener(PlaceReticle);
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CinemachineCore.CameraUpdatedEvent.AddListener(PlaceReticle);
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}
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private void OnDisable()
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{
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CinemachineCore.CameraUpdatedEvent.RemoveListener(PlaceReticle);
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}
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private void Update()
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{
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if (Brain == null)
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return;
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HorizontalAxis.Update(Time.deltaTime);
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VerticalAxis.Update(Time.deltaTime);
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PlaceTarget();
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}
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private void PlaceTarget()
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{
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var rot = Quaternion.Euler(VerticalAxis.Value, HorizontalAxis.Value, 0);
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var camPos = Brain.CurrentCameraState.RawPosition;
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transform.position = GetProjectedAimTarget(camPos + rot * Vector3.forward, camPos);
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}
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private Vector3 GetProjectedAimTarget(Vector3 pos, Vector3 camPos)
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{
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var origin = pos;
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var fwd = (pos - camPos).normalized;
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pos += AimDistance * fwd;
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if (CollideAgainst != 0 && RaycastIgnoreTag(
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new Ray(origin, fwd),
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out RaycastHit hitInfo, AimDistance, CollideAgainst))
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{
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pos = hitInfo.point;
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}
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return pos;
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}
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private bool RaycastIgnoreTag(
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Ray ray, out RaycastHit hitInfo, float rayLength, int layerMask)
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{
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const float PrecisionSlush = 0.001f;
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float extraDistance = 0;
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while (Physics.Raycast(
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ray, out hitInfo, rayLength, layerMask,
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QueryTriggerInteraction.Ignore))
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{
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if (IgnoreTag.Length == 0 || !hitInfo.collider.CompareTag(IgnoreTag))
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{
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hitInfo.distance += extraDistance;
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return true;
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}
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// Ignore the hit. Pull ray origin forward in front of obstacle
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Ray inverseRay = new Ray(ray.GetPoint(rayLength), -ray.direction);
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if (!hitInfo.collider.Raycast(inverseRay, out hitInfo, rayLength))
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break;
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float deltaExtraDistance = rayLength - (hitInfo.distance - PrecisionSlush);
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if (deltaExtraDistance < PrecisionSlush)
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break;
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extraDistance += deltaExtraDistance;
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rayLength = hitInfo.distance - PrecisionSlush;
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if (rayLength < PrecisionSlush)
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break;
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ray.origin = inverseRay.GetPoint(rayLength);
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}
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return false;
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}
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void PlaceReticle(CinemachineBrain brain)
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{
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if (brain == null || brain != Brain || ReticleImage == null || brain.OutputCamera == null)
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return;
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PlaceTarget(); // To eliminate judder
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CameraState state = brain.CurrentCameraState;
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var cam = brain.OutputCamera;
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var r = cam.WorldToScreenPoint(transform.position);
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var r2 = new Vector2(r.x - cam.pixelWidth * 0.5f, r.y - cam.pixelHeight * 0.5f);
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ReticleImage.anchoredPosition = r2;
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}
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}
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