借助 IJob,您可以调度与其他作业和主线程并行运行的单个作业。
调度作业时,将在工作线程中调用该作业的 Execute 方法。返回的 JobHandle 可用于确保作业已完成。它也可以作为依赖项传递给其他作业,从而确保作业在工作线程中逐个执行。
using UnityEngine; using Unity.Collections; using Unity.Jobs;
class ApplyVelocitySample : MonoBehaviour { struct VelocityJob : IJob { // Jobs declare all data that will be accessed in the job // By declaring it as read only, multiple jobs are allowed to access the data in parallel [ReadOnly] public NativeArray<Vector3> velocity;
// By default containers are assumed to be read & write public NativeArray<Vector3> position;
// Delta time must be copied to the job since jobs generally don't have concept of a frame. // The main thread waits for the job on the same frame or the next frame, but the job should // perform work in a deterministic and independent way when running on worker threads. public float deltaTime;
// The code actually running on the job public void Execute() { // Move the positions based on delta time and velocity for (var i = 0; i < position.Length; i++) position[i] = position[i] + velocity[i] * deltaTime; } }
public void Update() { var position = new NativeArray<Vector3>(500, Allocator.Persistent);
var velocity = new NativeArray<Vector3>(500, Allocator.Persistent); for (var i = 0; i < velocity.Length; i++) velocity[i] = new Vector3(0, 10, 0);
// Initialize the job data var job = new VelocityJob() { deltaTime = Time.deltaTime, position = position, velocity = velocity };
// Schedule the job, returns the JobHandle which can be waited upon later on JobHandle jobHandle = job.Schedule();
// Ensure the job has completed // It is not recommended to Complete a job immediately, // since that gives you no actual parallelism. // You optimally want to schedule a job early in a frame and then wait for it later in the frame. jobHandle.Complete();
Debug.Log(job.position[0]);
// Native arrays must be disposed manually position.Dispose(); velocity.Dispose(); } }
| Execute | 实现此方法以在工作线程中执行操作。 |