mirror of
https://github.com/nothke/quality-control.git
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179 lines
7.2 KiB
C#
179 lines
7.2 KiB
C#
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using System;
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using System.Collections;
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using System.Collections.Generic;
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using UnityEngine;
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namespace KinematicCharacterController.Examples
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{
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public class ExampleCharacterCamera : MonoBehaviour
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{
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[Header("Framing")]
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public Camera Camera;
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public Vector2 FollowPointFraming = new Vector2(0f, 0f);
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public float FollowingSharpness = 10000f;
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[Header("Distance")]
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public float DefaultDistance = 6f;
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public float MinDistance = 0f;
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public float MaxDistance = 10f;
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public float DistanceMovementSpeed = 5f;
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public float DistanceMovementSharpness = 10f;
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[Header("Rotation")]
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public bool InvertX = false;
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public bool InvertY = false;
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[Range(-90f, 90f)]
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public float DefaultVerticalAngle = 20f;
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[Range(-90f, 90f)]
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public float MinVerticalAngle = -90f;
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[Range(-90f, 90f)]
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public float MaxVerticalAngle = 90f;
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public float RotationSpeed = 1f;
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public float RotationSharpness = 10000f;
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public bool RotateWithPhysicsMover = false;
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[Header("Obstruction")]
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public float ObstructionCheckRadius = 0.2f;
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public LayerMask ObstructionLayers = -1;
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public float ObstructionSharpness = 10000f;
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public List<Collider> IgnoredColliders = new List<Collider>();
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public Transform Transform { get; private set; }
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public Transform FollowTransform { get; private set; }
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public Vector3 PlanarDirection { get; set; }
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public float TargetDistance { get; set; }
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private bool _distanceIsObstructed;
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private float _currentDistance;
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private float _targetVerticalAngle;
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private RaycastHit _obstructionHit;
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private int _obstructionCount;
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private RaycastHit[] _obstructions = new RaycastHit[MaxObstructions];
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private float _obstructionTime;
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private Vector3 _currentFollowPosition;
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private const int MaxObstructions = 32;
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void OnValidate()
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{
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DefaultDistance = Mathf.Clamp(DefaultDistance, MinDistance, MaxDistance);
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DefaultVerticalAngle = Mathf.Clamp(DefaultVerticalAngle, MinVerticalAngle, MaxVerticalAngle);
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}
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void Awake()
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{
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Transform = this.transform;
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_currentDistance = DefaultDistance;
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TargetDistance = _currentDistance;
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_targetVerticalAngle = 0f;
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PlanarDirection = Vector3.forward;
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}
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// Set the transform that the camera will orbit around
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public void SetFollowTransform(Transform t)
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{
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FollowTransform = t;
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PlanarDirection = FollowTransform.forward;
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_currentFollowPosition = FollowTransform.position;
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}
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public void UpdateWithInput(float deltaTime, float zoomInput, Vector3 rotationInput)
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{
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if (FollowTransform)
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{
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if (InvertX)
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{
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rotationInput.x *= -1f;
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}
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if (InvertY)
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{
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rotationInput.y *= -1f;
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}
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// Process rotation input
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Quaternion rotationFromInput = Quaternion.Euler(FollowTransform.up * (rotationInput.x * RotationSpeed));
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PlanarDirection = rotationFromInput * PlanarDirection;
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PlanarDirection = Vector3.Cross(FollowTransform.up, Vector3.Cross(PlanarDirection, FollowTransform.up));
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Quaternion planarRot = Quaternion.LookRotation(PlanarDirection, FollowTransform.up);
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_targetVerticalAngle -= (rotationInput.y * RotationSpeed);
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_targetVerticalAngle = Mathf.Clamp(_targetVerticalAngle, MinVerticalAngle, MaxVerticalAngle);
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Quaternion verticalRot = Quaternion.Euler(_targetVerticalAngle, 0, 0);
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Quaternion targetRotation = Quaternion.Slerp(Transform.rotation, planarRot * verticalRot, 1f - Mathf.Exp(-RotationSharpness * deltaTime));
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// Apply rotation
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Transform.rotation = targetRotation;
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// Process distance input
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if (_distanceIsObstructed && Mathf.Abs(zoomInput) > 0f)
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{
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TargetDistance = _currentDistance;
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}
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TargetDistance += zoomInput * DistanceMovementSpeed;
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TargetDistance = Mathf.Clamp(TargetDistance, MinDistance, MaxDistance);
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// Find the smoothed follow position
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_currentFollowPosition = Vector3.Lerp(_currentFollowPosition, FollowTransform.position, 1f - Mathf.Exp(-FollowingSharpness * deltaTime));
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// Handle obstructions
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{
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RaycastHit closestHit = new RaycastHit();
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closestHit.distance = Mathf.Infinity;
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_obstructionCount = Physics.SphereCastNonAlloc(_currentFollowPosition, ObstructionCheckRadius, -Transform.forward, _obstructions, TargetDistance, ObstructionLayers, QueryTriggerInteraction.Ignore);
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for (int i = 0; i < _obstructionCount; i++)
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{
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bool isIgnored = false;
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for (int j = 0; j < IgnoredColliders.Count; j++)
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{
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if (IgnoredColliders[j] == _obstructions[i].collider)
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{
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isIgnored = true;
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break;
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}
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}
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for (int j = 0; j < IgnoredColliders.Count; j++)
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{
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if (IgnoredColliders[j] == _obstructions[i].collider)
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{
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isIgnored = true;
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break;
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}
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}
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if (!isIgnored && _obstructions[i].distance < closestHit.distance && _obstructions[i].distance > 0)
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{
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closestHit = _obstructions[i];
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}
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}
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// If obstructions detecter
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if (closestHit.distance < Mathf.Infinity)
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{
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_distanceIsObstructed = true;
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_currentDistance = Mathf.Lerp(_currentDistance, closestHit.distance, 1 - Mathf.Exp(-ObstructionSharpness * deltaTime));
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}
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// If no obstruction
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else
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{
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_distanceIsObstructed = false;
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_currentDistance = Mathf.Lerp(_currentDistance, TargetDistance, 1 - Mathf.Exp(-DistanceMovementSharpness * deltaTime));
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}
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}
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// Find the smoothed camera orbit position
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Vector3 targetPosition = _currentFollowPosition - ((targetRotation * Vector3.forward) * _currentDistance);
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// Handle framing
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targetPosition += Transform.right * FollowPointFraming.x;
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targetPosition += Transform.up * FollowPointFraming.y;
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// Apply position
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Transform.position = targetPosition;
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}
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}
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}
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}
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