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Circuits/Assets/Photon/PhotonUnityNetworking/Code/Utilities/NestedComponentUtilities.cs

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using System.Collections;
using System.Collections.Generic;
using UnityEngine;
namespace Photon.Pun
{
public static class NestedComponentUtilities
{
public static T EnsureRootComponentExists<T, NestedT>(this Transform transform)
where T : Component
where NestedT : Component
{
var root = GetParentComponent<NestedT>(transform);
if (root)
{
var comp = root.GetComponent<T>();
if (comp)
return comp;
return root.gameObject.AddComponent<T>();
}
return null;
}
#region GetComponent Replacements
// Recycled collections
private static Queue<Transform> nodesQueue = new Queue<Transform>();
public static Dictionary<System.Type, ICollection> searchLists = new Dictionary<System.Type, ICollection>();
private static Stack<Transform> nodeStack = new Stack<Transform>();
/// <summary>
/// Find T on supplied transform or any parent. Unlike GetComponentInParent, GameObjects do not need to be active to be found.
/// </summary>
public static T GetParentComponent<T>(this Transform t)
where T : Component
{
T found = t.GetComponent<T>();
if (found)
return found;
var par = t.parent;
while (par)
{
found = par.GetComponent<T>();
if (found)
return found;
par = par.parent;
}
return null;
}
/// <summary>
/// Returns all T found between the child transform and its root. Order in List from child to parent, with the root/parent most being last.
/// </summary>
/// <param name="t"></param>
/// <returns></returns>
public static void GetNestedComponentsInParents<T>(this Transform t, List<T> list)
where T : Component
{
list.Clear();
while (t != null)
{
T obj = t.GetComponent<T>();
if (obj)
list.Add(obj);
t = t.parent;
}
}
public static T GetNestedComponentInChildren<T, NestedT>(this Transform t, bool includeInactive)
where T : class
where NestedT : class
{
// Look for the most obvious check first on the root.
var found = t.GetComponent<T>();
if (!ReferenceEquals(found, null))
return found;
// No root found, start testing layer by layer - root is the first layer. Add to queue.
nodesQueue.Clear();
nodesQueue.Enqueue(t);
while (nodesQueue.Count > 0)
{
var node = nodesQueue.Dequeue();
for (int c = 0, ccnt = node.childCount; c < ccnt; ++c)
{
var child = node.GetChild(c);
// Ignore branches that are not active
if (!includeInactive && !child.gameObject.activeSelf)
continue;
// Hit a nested node - don't search this node
if (!ReferenceEquals(child.GetComponent<NestedT>(), null))
continue;
// see if what we are looking for is on this node
found = child.GetComponent<T>();
// Return if we found what we are looking for
if (!ReferenceEquals(found, null))
return found;
// Add node to queue for next depth pass since nothing was found on this layer.
nodesQueue.Enqueue(child);
}
}
return found;
}
/// <summary>
/// Same as GetComponentInParent, but will always include inactive objects in search.
/// </summary>
/// <typeparam name="T"></typeparam>
/// <typeparam name="DontRecurseOnT"></typeparam>
/// <param name="t"></param>
/// <returns></returns>
public static T GetNestedComponentInParent<T, NestedT>(this Transform t)
where T : class
where NestedT : class
{
T found = null;
Transform node = t;
do
{
found = node.GetComponent<T>();
if (!ReferenceEquals(found, null))
return found;
// stop search on node with PV
if (!ReferenceEquals(node.GetComponent<NestedT>(), null))
return null;
node = node.parent;
}
while (!ReferenceEquals(node, null));
return null;
}
/// <summary>
/// UNTESTED
/// </summary>
/// <typeparam name="T"></typeparam>
/// <typeparam name="StopSearchOnT"></typeparam>
/// <param name="t"></param>
/// <returns></returns>
public static T GetNestedComponentInParents<T, NestedT>(this Transform t)
where T : class
where NestedT : class
{
// First try root
var found = t.GetComponent<T>();
if (!ReferenceEquals(found, null))
return found;
/// Get the reverse list of transforms climbing for start up to netobject
var par = t.parent;
while (!ReferenceEquals(par, null))
{
found = par.GetComponent<T>();
if (!ReferenceEquals(found, null))
return found;
/// Stop climbing at the NetObj (this is how we detect nesting
if (!ReferenceEquals(par.GetComponent<NestedT>(), null))
return null;
par = par.parent;
};
return null;
}
/// <summary>
/// Finds components of type T on supplied transform, and every parent above that node, inclusively stopping on node StopSearchOnT component.
/// </summary>
/// <typeparam name="T"></typeparam>
/// <typeparam name="StopSearchOnT"></typeparam>
/// <param name="t"></param>
/// <param name="list"></param>
/// <returns></returns>
public static void GetNestedComponentsInParents<T, NestedT>(this Transform t, List<T> list)
where T : class
where NestedT : class
{
// Get components on the starting node - this is a given.
t.GetComponents(list);
// If the starting node has the stop component, we are done.
if (!ReferenceEquals(t.GetComponent<NestedT>(), null))
return;
var tnode = t.parent;
// If there is no parent, we are done.
if (ReferenceEquals(tnode, null))
return;
nodeStack.Clear();
while (true)
{
// add new parent to stack
nodeStack.Push(tnode);
// if this node has the Stop, we are done recursing up.
if (!ReferenceEquals(tnode.GetComponent<NestedT>(), null))
break;
// Get the next parent node and add it to the stack
tnode = tnode.parent;
// Stop recursing up if the parent is null
if (ReferenceEquals(tnode, null))
break;
}
if (nodeStack.Count == 0)
return;
System.Type type = typeof(T);
// Acquire the right searchlist from our pool
List<T> searchList;
if (!searchLists.ContainsKey(type))
{
searchList = new List<T>();
searchLists.Add(type, searchList);
}
else
{
searchList = searchLists[type] as List<T>;
}
// Reverse iterate the nodes found. This produces a GetComponentInParent that starts from the parent Stop down to the provided transform
while (nodeStack.Count > 0)
{
var node = nodeStack.Pop();
node.GetComponents(searchList);
list.AddRange(searchList);
}
}
/// <summary>
/// Same as GetComponentsInChildren, but will not recurse into children with component of the DontRecurseOnT type. This allows nesting of PhotonViews/NetObjects to be respected.
/// </summary>
/// <typeparam name="T"></typeparam>
/// <param name="t"></param>
/// <param name="list">Pass null and a reused list will be used. Consume immediately.</param>
public static List<T> GetNestedComponentsInChildren<T, NestedT>(this Transform t, List<T> list, bool includeInactive = true)
where T : class
where NestedT : class
{
System.Type type = typeof(T);
// Temp lists are also recycled. Get/Create a reusable List of this type.
List<T> searchList;
if (!searchLists.ContainsKey(type))
searchLists.Add(type, searchList = new List<T>());
else
searchList = searchLists[type] as List<T>;
nodesQueue.Clear();
if (list == null)
list = new List<T>();
// Get components on starting transform - no exceptions
t.GetComponents(list);
// Add first layer of children to the queue for next layer processing.
for (int i = 0, cnt = t.childCount; i < cnt; ++i)
{
var child = t.GetChild(i);
// Ignore inactive nodes (optional)
if (!includeInactive && !child.gameObject.activeSelf)
continue;
// ignore nested DontRecurseOnT
if (!ReferenceEquals(child.GetComponent<NestedT>(), null))
continue;
nodesQueue.Enqueue(child);
}
// Recurse node layers
while (nodesQueue.Count > 0)
{
var node = nodesQueue.Dequeue();
// Add found components on this gameobject node
node.GetComponents(searchList);
list.AddRange(searchList);
// Add children to the queue for next layer processing.
for (int i = 0, cnt = node.childCount; i < cnt; ++i)
{
var child = node.GetChild(i);
// Ignore inactive nodes (optional)
if (!includeInactive && !child.gameObject.activeSelf)
continue;
// ignore nested NestedT
if (!ReferenceEquals(child.GetComponent<NestedT>(), null))
continue;
nodesQueue.Enqueue(child);
}
}
return list;
}
/// <summary>
/// Same as GetComponentsInChildren, but will not recurse into children with component of the DontRecurseOnT type. This allows nesting of PhotonViews/NetObjects to be respected.
/// </summary>
/// <typeparam name="T"></typeparam>
/// <param name="t"></param>
/// <param name="list">Pass null and a reused list will be used. Consume immediately.</param>
public static List<T> GetNestedComponentsInChildren<T>(this Transform t, List<T> list, bool includeInactive = true, params System.Type[] stopOn)
where T : class
{
System.Type type = typeof(T);
// Temp lists are also recycled. Get/Create a reusable List of this type.
List<T> searchList;
if (!searchLists.ContainsKey(type))
searchLists.Add(type, searchList = new List<T>());
else
searchList = searchLists[type] as List<T>;
nodesQueue.Clear();
// Get components on starting transform - no exceptions
t.GetComponents(list);
// Add first layer of children to the queue for next layer processing.
for (int i = 0, cnt = t.childCount; i < cnt; ++i)
{
var child = t.GetChild(i);
// Ignore inactive nodes (optional)
if (!includeInactive && !child.gameObject.activeSelf)
continue;
// ignore nested DontRecurseOnT
bool stopRecurse = false;
for (int s = 0, scnt = stopOn.Length; s < scnt; ++s)
{
if (!ReferenceEquals(child.GetComponent(stopOn[s]), null))
{
stopRecurse = true;
break;
}
}
if (stopRecurse)
continue;
nodesQueue.Enqueue(child);
}
// Recurse node layers
while (nodesQueue.Count > 0)
{
var node = nodesQueue.Dequeue();
// Add found components on this gameobject node
node.GetComponents(searchList);
list.AddRange(searchList);
// Add children to the queue for next layer processing.
for (int i = 0, cnt = node.childCount; i < cnt; ++i)
{
var child = node.GetChild(i);
// Ignore inactive nodes (optional)
if (!includeInactive && !child.gameObject.activeSelf)
continue;
// ignore nested NestedT
bool stopRecurse = false;
for (int s = 0, scnt = stopOn.Length; s < scnt; ++s)
{
if (!ReferenceEquals(child.GetComponent(stopOn[s]), null))
{
stopRecurse = true;
break;
}
}
if (stopRecurse)
continue;
nodesQueue.Enqueue(child);
}
}
return list;
}
/// <summary>
/// Same as GetComponentsInChildren, but will not recurse into children with component of the NestedT type. This allows nesting of PhotonViews/NetObjects to be respected.
/// </summary>
/// <typeparam name="T">Cast found components to this type. Typically Component, but any other class/interface will work as long as they are assignable from SearchT.</typeparam>
/// <typeparam name="SearchT">Find components of this class or interface type.</typeparam>
/// <typeparam name="DontRecurseOnT"></typeparam>
/// <param name="t"></param>
/// <param name="includeInactive"></param>
/// <param name="list"></param>
/// <returns></returns>
public static void GetNestedComponentsInChildren<T, SearchT, NestedT>(this Transform t, bool includeInactive, List<T> list)
where T : class
where SearchT : class
{
list.Clear();
// If this is inactive, nothing will be found. Give up now if we are restricted to active.
if (!includeInactive && !t.gameObject.activeSelf)
return;
System.Type searchType = typeof(SearchT);
// Temp lists are also recycled. Get/Create a reusable List of this type.
List<SearchT> searchList;
if (!searchLists.ContainsKey(searchType))
searchLists.Add(searchType, searchList = new List<SearchT>());
else
searchList = searchLists[searchType] as List<SearchT>;
// Recurse child nodes one layer at a time. Using a Queue allows this to happen without a lot of work.
nodesQueue.Clear();
nodesQueue.Enqueue(t);
while (nodesQueue.Count > 0)
{
var node = nodesQueue.Dequeue();
// Add found components on this gameobject node
searchList.Clear();
node.GetComponents(searchList);
foreach (var comp in searchList)
{
var casted = comp as T;
if (!ReferenceEquals(casted, null))
list.Add(casted);
}
// Add children to the queue for next layer processing.
for (int i = 0, cnt = node.childCount; i < cnt; ++i)
{
var child = node.GetChild(i);
// Ignore inactive nodes (optional)
if (!includeInactive && !child.gameObject.activeSelf)
continue;
// ignore nested DontRecurseOnT
if (!ReferenceEquals(child.GetComponent<NestedT>(), null))
continue;
nodesQueue.Enqueue(child);
}
}
}
#endregion
}
}