之前的示例程序基本实现了一个自己的WaitForSeconds,功能上及使用上都与Unity自建的WaitForSeconds类似,另外的,如果我们进一步考虑WaitForFixedUpdate和WaitForEndOfFrame这类的YieldInstruction,我们是否也可以自己实现?其中的原理又是什么呢?
先让我们来看一张MonoBehaviour的生命周期图(外国友人所做,原帖在这里):
从图中我们可以看到,Unity对于MonoBehaviour中Coroutine的处理,实际上并不是简单
的单一步骤,而是采取了类似分阶段处理的方式:即在每次FixedUpdate之后进行WaitForFixedUpdate的处理,每次Update之后进行WaitForSeconds的处理,而在每一帧结束之前,进行WaitForEndOfFrame的处理。那么依此而看,先前示例中简单的LateUpdate 模拟就有些捉襟见肘了:WaitForSeconds可能勉强还可以应付,但是像WaitForFixedUpdate 以及WaitForEndOfFrame这类YieldInstruction,这种方式便应付不来了……
不过如果从原理上来讲的话,上面的那些YieldInstruction还是相似的,问题都集中于何时调用IEnumerator的MoveNext()操作而已,如WaitForSeconds,就是在其延时结束之后调用MoveNext(),而像WaitForFixedUpdate,便是在每次FixedUpdate之后才调用MoveNext(),另外的WaitForEndOfFrame,则是在每帧结束之前调用对应的IEnumerator的MoveNext()。如果需要实际实现的话,目前想到的一种方法便是创建几种不同类型的CoroutineManager,譬如WaitForSecondsCoroutineManager、WaitForFixedUpdateCoroutineManager等等,用于在不同更新时刻处理其中的IEnumerator,原理上都是控制IEnumerator MoveNext()的实际,在此我并没有加以实现,一是自己懒惰了些(……),二是Unity本身也未明显提供用以实现这类处理的回调方法,不过有兴趣的朋友倒是可以试试:)
另外想到的一个问题就是StartCoroutine的嵌套问题,即在某一个Coroutine中又以yield return的方式开启了另一个Coroutine,例如以下代码:
void Start() {
// start unity coroutine
StartCoroutine(UnityCoroutine());
}
IEnumerator UnityCoroutine() {
Debug.Log("Unity coroutine begin at time : " + Time.time);
yield return new WaitForSeconds(2);
yield return StartCoroutine(InnerUnityCoroutine());
Debug.Log("Unity coroutine end at time : " + Time.time);
}
IEnumerator InnerUnityCoroutine() {
Debug.Log("Inner Unity coroutine begin at time : " + Time.time);
yield return new WaitForSeconds(2);
Debug.Log("Inner Unity coroutine end at time : " + Time.time);
}
那么“外层”的UnityCoroutine只有在“内层”的InnerUnityCoroutine“执行”完毕之后才会继续“执行”,程序结果大概是这个样子:
在此简单一提,必须要采用yield return的方式才可以实现这种嵌套执行效果,简单的一个StartCoroutine只能创建一个“平行”的Coroutine,并不会产生嵌套效果,譬如如下代码:void Start() {
// start unity coroutine
StartCoroutine(UnityCoroutine());
IEnumerator UnityCoroutine() {
Debug.Log("Unity coroutine begin at time : " + Time.time);
yield return new WaitForSeconds(2);
StartCoroutine(InnerUnityCoroutine());
Debug.Log("Unity coroutine end at time : " + Time.time);
}
IEnumerator InnerUnityCoroutine() {
Debug.Log("Inner Unity coroutine begin at time : " + Time.time);
yield return new WaitForSeconds(2);
Debug.Log("Inner Unity coroutine end at time : " + Time.time);
}
那么最终的执行结果便会是这个样子:
OK,那么如果我们需要自己实现这种嵌套机制,应该怎么做呢?实际上还是在特殊类型判断上做文章!在Unity中,每次调用StartCoroutine都会返回一个特殊的Coroutine类型,而这个类型便是我们实现嵌套Coroutine的突破口!好了,首先让我们实现一下自己的Coroutine 类型:
//
//
//
//
using UnityEngine;
using System.Collections.Generic;
public class CoroutineSimple {
public Stack
public CoroutineSimple(Stack
}
}
此处的Stack
//
//
//
using UnityEngine;
using System.Collections.Generic;
public class CoroutineManager : MonoBehaviour {
public static CoroutineManager Instance {
get;
private set;
}
List
List
void Awake() {
if (Instance == null) {
Instance = this;
}
else {
Debug.LogError("Multi-instances of CoroutineManager");
}
}
void LateUpdate() {
for (int i = 0; i < m_enumerators.Count; ++i) {
// handle CoroutineYieldInstruction here
if (m_enumerators[i].Peek().Current is CoroutineYieldInstruction) { CoroutineYieldInstruction yieldInstruction = m_enumerators[i].Peek().Current as CoroutineYieldInstruction;
if (!yieldInstruction.IsDone()) {
continue;
}
}
// do normal move next
if (!m_enumerators[i].Peek().MoveNext()) {
m_enumerators[i].Pop();
if (m_enumerators[i].Count <= 0) {
m_enumeratorsBuffer.Add(m_enumerators[i]);
}
continue;
}
if (m_enumerators[i].Peek().Current is CoroutineSimple) {
// here we just push new enumerator
CoroutineSimple coroutineSimple = m_enumerators[i].Peek().Current as CoroutineSimple;
m_enumerators[i].Push(coroutineSimple.innerEnumeratorStack.Peek());
// NOTE: very tricky
// TODO: clear
m_enumerators.Remove(coroutineSimple.innerEnumeratorStack);
}
// other special enumerator here ...
}
// remove end enumerator
for (int i = 0; i < m_enumeratorsBuffer.Count; ++i) {
m_enumerators.Remove(m_enumeratorsBuffer[i]);
}
m_enumeratorsBuffer.Clear();
}
public CoroutineSimple StartCoroutineSimple(System.Collections.IEnumerator enumerator) { Stack
newEnumeratorStack.Push(enumerator);
m_enumerators.Add(newEnumeratorStack);
return new CoroutineSimple(newEnumeratorStack);
}
}
代码味道不是很好,还有不少Tricky,但是也算基本实现了嵌套的Coroutine处理,写个简单的“单元测试”:
void Start() {
// start unity coroutine
StartCoroutine(UnityCoroutine());
// start self coroutine
CoroutineManager.Instance.StartCoroutineSimple(SelfCoroutine());
}
IEnumerator UnityCoroutine() {
Debug.Log("Unity coroutine begin at time : " + Time.time);
yield return new WaitForSeconds(5);
yield return StartCoroutine(InnerUnityCoroutine());
Debug.Log("Unity coroutine end at time : " + Time.time);
}
IEnumerator SelfCoroutine() {
Debug.Log("Self coroutine begin at time : " + Time.time);
yield return new CoroutineWaitForSeconds(5);
yield return CoroutineManager.Instance.StartCoroutineSimple(InnerSelfCoroutine());
Debug.Log("Self coroutine end at time : " + Time.time);
}
IEnumerator InnerUnityCoroutine() {
Debug.Log("Inner Unity Coroutine begin at time : " + Time.time);
yield return new WaitForSeconds(5);
yield return StartCoroutine(DeepUnityCoroutine());
Debug.Log("Inner Unity Coroutine end at time : " + Time.time);
}
IEnumerator DeepUnityCoroutine() {
Debug.Log("Deep Unity Coroutine begin at time : " + Time.time);
yield return new WaitForSeconds(5);
Debug.Log("Deep Unity Coroutine end at time : " + Time.time);
}
IEnumerator InnerSelfCoroutine() {
Debug.Log("Inner Self Coroutine begin at time : " + Time.time);
yield return new CoroutineWaitForSeconds(5);
yield return CoroutineManager.Instance.StartCoroutineSimple(DeepSelfCoroutine());
Debug.Log("Inner Self Coroutine end at time : " + Time.time);
}
IEnumerator DeepSelfCoroutine() {
Debug.Log("Deep Self Coroutine begin at time : " + Time.time);
yield return new CoroutineWaitForSeconds(5);
Debug.Log("Deep Self Coroutine end at time : " + Time.time);
}
执行结果基本如人所料:
不过平心而论,虽然上面的示例实现了类似的Coroutine效果,但是从很多方面来看,Unity 自建的Coroutine控制都更好更细致,自己实现的Coroutine则相对粗糙了不少,而且不要忘了,我们目前还不支持WaitForFixedUpdate、WaitForEndOfFrame、WWW这类的特殊类型呢!当然我们可以继续精化程序,但是我毕竟不是一个热爱重造车轮的人,上面的那些个代码也仅是为了学习一下Coroutine的原理,仅此而已,那么就让我们暂时到此为止吧~ :)下次再见了~~~