Live Coding #2: Building Powerful Games with DOTS by Unity
06 may 2019
Tech Editor @ WTTJ
In this live coding session, Alexandre Nicaise, a Unity 3D developer working at Phaethon Games, explains how to use the Data-Oriented Tech Stack (DOTS) in Unity as a way of dealing with performance issues in games. To do this, he will show how to build a ground of 10,000 cubes using DOTS.
What is DOTS?
DOTS is a Data-Oriented Tech Stack of Unity composed of three elements: The entity-component-system (ECS), the jobs system, and the burst compiler.
This improves memory management when compared to object-oriented programming. For example, displaying a ground of 10,000 cubes takes 277 milliseconds normally on Unity, but only 41 milliseconds with DOTS.
Demonstration steps to build a ground of 10,000 cubes
1- Send a game object to a prefab
2- Create an empty game and convert it to an entity
3- Create a component to store the prefab
using System;using Unity.Collections;using Unity.Entities;using Unity.Mathematics;[Serializable]public struct SpawnerDemoData : IComponentData{ // Add fields to your component here. Remember that: // // * A component itself is for storing data and doesn't 'do' anything. // // * To act on the data, you will need a System. // // * Data in a component must be blittable, which means a component can // only contain fields which are primitive types or other blittable // structs; they cannot contain references to classes. // // * You should focus on the data structure that makes the most sense // for runtime use here. Authoring Components will be used for // authoring the data in the Editor. public Entity prefab; public int Ecol; public int Erow;}
4- Create a proxy to add the component to the entity
using System.Collections.Generic;using Unity.Entities;using Unity.Mathematics;using UnityEngine;[DisallowMultipleComponent][RequiresEntityConversion]public class SpawnerDemoProxy : MonoBehaviour, IConvertGameObjectToEntity, IDeclareReferencedPrefabs{ // Add fields to your component here. Remember that: // // * The purpose of this class is to store data for authoring purposes - it is not for use while the game is // running. // // * Traditional Unity serialization rules apply: fields must be public or marked with [SerializeField], and // must be one of the supported types. public GameObject prefab; public int column; public int row; // Lets you convert the editor data representation to the entity optimal runtime representation public void Convert(Entity entity, EntityManager dstManager, GameObjectConversionSystem conversionSystem) { SpawnerDemoData data = new SpawnerDemoData { // The referenced prefab will be converted due to DeclareReferencedPrefabs. // So here we simply map the game object to an entity reference to that prefab. prefab = conversionSystem.GetPrimaryEntity(prefab), Ecol = column, Erow = row }; dstManager.AddComponentData(entity, data); } // Referenced prefabs have to be declared so that the conversion system knows about them ahead of time public void DeclareReferencedPrefabs(List<GameObject> referencedPrefabs) { referencedPrefabs.Add(prefab); }}
5- Create a system to spawn the entity
using Unity.Burst;using Unity.Collections;using Unity.Entities;using Unity.Jobs;using Unity.Mathematics;using Unity.Transforms;using static Unity.Mathematics.math;// JobComponentSystems can run on worker threads.// However, creating and removing Entities can only be done on the main thread to prevent race conditions.// The system uses an EntityCommandBuffer to defer tasks that can't be done inside the Job.public class SpawnerDemoSystem : JobComponentSystem{ // EndSimulationEntityCommandBufferSystem is used to create a command buffer which will then be played back // when that barrier system executes. // Though the instantiation command is recorded in the SpawnJob, it's not actually processed (or "played back") // until the corresponding EntityCommandBufferSystem is updated. EndSimulationEntityCommandBufferSystem _endSimulationEntityCommandBufferSystem; protected override void OnCreateManager() { // Cache the EndSimulationEntityCommandBufferSystem in a field, so we don't have to create it every frame _endSimulationEntityCommandBufferSystem = World.GetOrCreateSystem<EndSimulationEntityCommandBufferSystem>(); } // This declares a new kind of job, which is a unit of work to do. // The job is declared as an IJobForEachWithEntity<LocalToWorld, SpawnerDemoData>, // meaning it will process all entities in the world that have both // LocalToWorld and SpawnerDemoData components. Change it to process the component // types you want. struct SpawnerDemoSystemJob : IJobForEachWithEntity<LocalToWorld, SpawnerDemoData> { // Add fields here that your job needs to do its work. //A thread-safe command buffer that can buffer commands that affect entities and components for later playback. public EntityCommandBuffer commandBuffer; public void Execute(Entity entity, int index, ref LocalToWorld location, ref SpawnerDemoData data) { for (int x = 0; x < data.Ecol; x++) { for (int z = 0; z < data.Erow; z++) { //Create your entity from the prefab Entity instance = commandBuffer.Instantiate(data.prefab); //define the position float3 pos = math.transform(location.Value, new float3(x, noise.cnoise(new float2(x,z) *0.21f), z)); //set the position in the world commandBuffer.SetComponent(instance, new Translation() { Value = pos}); } } //Destroy the spawner entity commandBuffer.DestroyEntity(entity); } } protected override JobHandle OnUpdate(JobHandle inputDependencies) { //Instead of performing structural changes directly, a Job can add a command to an EntityCommandBuffer to perform such changes on the main thread after the Job has finished. //Command buffers allow you to perform any, potentially costly, calculations on a worker thread, while queuing up the actual insertions and deletions for later. // Schedule the job that will add Instantiate commands to the EntityCommandBuffer. var job = new SpawnerDemoSystemJob() { commandBuffer = _endSimulationEntityCommandBufferSystem.CreateCommandBuffer() // instantiate the Buffer }.ScheduleSingle(this, inputDependencies) ; // SpawnJob runs in parallel with no sync point until the barrier system executes. // When the barrier system executes we want to complete the SpawnJob and then play back the commands (Creating the entities and placing them). // We need to tell the barrier system which job it needs to complete before it can play back the commands. _endSimulationEntityCommandBufferSystem.AddJobHandleForProducer(job); return job; }}
The full project is available on GitHub.
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